Subido por alex-saenz92

MIL-STD-105 (1)

Anuncio
NOT
MEASUREMENT
MVF
MIL-STO-1D5E
10 MAY 1989
SUPERSEDING
MIL-STD-1D5D
29 APRIL
1963
MILITARY’ STANDARD
SAMPLING
PROCEDURES
AND TABLES
FOR INSPECTION
BY AITRIBUTES
I
AMSC
~~.
N/A
AREA
Approved
for
public
releese;
dlstrlbutlon
is
QCIC
unlimited.
MIL-STO-1O5E
DEP~
OF DEFENSE
Washington,EC 20301
SN-lPL13K
PRKEDUWS AND TABLESFOR INSPECTIONBY ~
1. ‘his militarystaxiardis approvedfor use by all Ceprwmts
of * ~t
of Mf==e.
and Agencies
2. Ikneficial ~ts
(recmmmdations,additions,deletims) and any
prtinent data whiti may be of use in inprovingthis documnt shouldbe
addressedto:
Ccmmnder
Us. Army Armment Researdn,Develop-rent
and
Enginerinq Center
ATIN: SKAR-BAC-S/BldcJ
.6
PicatinnyArsenal,NJ 07806-5000
by using &“ self-addressed
Standardization
~t
(ODForm 1426) am=ring at the md of this dommnt
ii
-r ovww.ntProposal
or letter.
MII-S’ID-105E
‘ItLis
p.blitationprovidez.sampliqproceduresand referene tables for use in
planningand conductinginspectionby attributes. ‘Thesamplingconceptis based
on the prokbilistic reaxrente of eventshhen a seriesof lots or Mxhes are
prtducedin a stableenvimrmmt.
‘Mis publicationshouldix used to guide the user in the rk?velqzwntof an
~ion
strategythat prmides a cost effectiveq+math to attw
amfidmm
in prcchxtanpliance with con-~actualtechn.iral
rquimmnts.
Tne
user is wrned of the asmmxl risks relativeco *
rhozen sanplesize ad
MKMili@
~ifications should~t ~t~
requmrents
.”
for use of wfic
ssIIQling
plans, nor shouldthey provideAQL’s or Ll?D’sas a requimmnt.
Sal@ing plans for continuous,ratherthan lot ~ion,
are containedin
MllAIV-1235, “’Single
and Mlci-Level ContinuousSanplingPmcedxes and Tables
for Inscectionby
.
Attrihxes”.
iii
MIL-STC-105E
——..
Paragraph
1.
SCOPE...............................................
1.1
1.2
2.
-se
....................................-.”.”-”
A@ication .......................................
REmwKED
2.1
3.
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9
3.10
3.11
3.12
3.13
3.14
3.15
3.16
3.17
3.18
3.19
3.20
3.21
3.22
3.23
4.
4.1
4.2
4.3
4.4
4.4.1
4.4.2
4.4.3
lxKuMmrs.................................
1
1
1
Non applicable
....................................
1
DEFIMTICMS
................... ......................
1
_t*leCmlity-1
(ML) ....................
[email protected]
(~) ....................
AverageGutgoingQualityLimit (=L) .............
Classification
of Defects.........................
CriticalDefect...................................
CriticalDefective
...........:....................
Cefect............................................
Defective
..........................................
DefectsPer [email protected]
.........................
Inspection.
.......................................
..........................
Inspectionby Attributes
I_ctor Bat* ......................................
I.mor EatchSize.................................
Major Defect......................................
Major Defective
...................................
Minor Defect......................................
MinorEefective.
..................................
PercentDefective
..........................
........
P-ss
Average...................................
Sanpl e....
........................................
Sa@e SizeCede Letter...........................
san@ing Plan.....................................
Unit of Prcdmt...................................
GmJ=m~s
-------------------------------
WrittenProcedures
................................
Noncunformnm ....................................
Formtirm and Identification
of lots or Batches...
...............................................
ML
AQL Use...........................................
Limitation
........................................
Chasing ins.................. ...................
iv
2
2
2
2
2
2
2
3
3
3
3
3
3
3
3
3
3
4
4
.4
4
4
4
4
4
4
5
5
5
5
5
.,
mL?S’m-lo5s
C@m2?l’s - CQntinued.
q
Pa.ragra@
4.5
4.5.1
4.5.2
4.5.3
4.6
4.7
4.7.1
4.7.2
4.7.3
4.7.4
4.8
4.9
4.9.1
4.9.2
4.9.3
4.9.4
4.10
4.10.1
4.10.1.1
4.10.1.2
4.10.1.3
4.10.1.4
4.10.2
4.11
4.12
4.12.1
4.12.2
5.
sa71Qlhg
.........................................
Representative
Sanding....
......................
Tim20f S.a@@ .................................
~&irrP&tiple
Saupling
......................
............................
.SwitchiqP~
.............................
Mxm.lco
Tightened............. .................
Ti@tened to Norml ..............................
Noz-mlto Famed ................................
Reducedtot+xm.l..
.............. ................
DkxmtinuationofI
nspection. ...................
San@ing Plans...................................
~ion==l..
................... ............
Clxk?l.ettera
.....................................
Maining sanplin Golan.........................
TYF=of*l%l
Plens..........................
Determination
ofkxeptabi.lity.
...................
PercentDefectiveInspection..
...................
SingleSa@ingP lab........... ..................
CoubleSamplingPlan.............................
tiltipleSa@ingP lab.......... .................
Sp2CialProce&re for RdweclIr
section. ....... .
D!2fects
Per HuI@redUnits In.sp3ction.
.............
L.imiting
Omlity Protectkn..
. ...................
...........................................
-t%-=-i=ic
~
..................
AverageSa@e Size Curvea.:.....................
5
:
5
6
6
6
6
6
6
7
1
7
7
7
8
8
8
8
8
t!
9
,9
9
9
9
TABLES...............................................
11
San@e SizeCede I.etters
.........................
Shgle SenpMng Plans for Nonm.1
~ion
Mster table)....................:.
SingleSaWMng Plans for Tight&
InspectionMaster table)......................
SingleSanpM.ngPlans for Reduced
Irqection (M3stertable)......................
CoubleSamplingPlans for Normal
~ion
043stertable)......................
CuubleSanplingPlans for Tightened
~ion
(Mastertable)......................
CoubleSa@ing Plans for Reduced
I~ion
(Masterteble)......................
13
Table
I.
II-A.
II-B.
11<.
III-A.
III-B.
III-C.
v
14
15
16
17
18
19
MTL-S’IC-105E
CcNIENrs - Cclnthuled
.
Table
IV-A.
M.dtipleSapling Plans for Nornksl
~im
(~ert~le) ................... ...
IV-B.
MiltipleSamplingPlans for Tightened
Inspection(Msstertable)......................
Iv-c.
[email protected]
S.an@ingPlans for Reduced
~im
(Msstertable)......................
V-A.
AveragzDutgoingQualityLimit FacLorsfor
Normal ~ion
(Stiglesampling)
............
V-B.
Average@tgoing @ality Limit Factorsfor
TightenedIn-ion
(SingleSan@ng) .........
\T-A.
Limittig(Xality (inPercentDefective)for
which a Pa = 10% (forNormal ~ion,
Singlesanplti g).............................
LimitingQuality (inCefectsper Hundred
VI-B.
Units)for which the Pa = 10% (forNormal
~im,
Stigle Sa@ing) ...................
VII-A.
limiting@it y (inPercentDefective)for
which the Pa = 5% (forNormsl I.nsp?ction,
Singlesanplin g).............................
Ltitk.g CMality (inDefectsper Hundred’
VII-B.
Wits) for whiti the Pa = 5% (forNormsl
~ction,
Si.ngle*ling) ....................
Limit Nun&rsfor P&ducaiInspection.
............
VIII.
AverageSa@e Size Cumes for Doubleand
Ix.
tWltipleSampling...............................
Sa@ing Plans and ~rating Characteristic
Curves (andData) for:
X-A.
Sa@e SizeCc& I.etter
A........................
X-B.
San@e SizeCode b?tterB........................
x-c.
SanpleSizeCa5e LetterC...:....................
X-D.
San’ple
SizeCcxieLetterD........................
X-E .
Sa@e SizeCede LetterE........................
X-F.
San@e SizeCede LetterF........................
x-G.
Sa@e SizeCo& LetterG........................
X-H.
San@e SizeCode I.etter
H........................
X-J.
San@e SizeCock LetterJ........................
X-K.
SanpleSizeCcrZeI.etter
K........................
X-L.
San@e SizeCo& LetterL........................
x-M.
Sa@e SizeCcck LetterM........................
X-N.
San@e SizeCode Lectern........................
x-P.
SanpleSizeCode LetterP........................
x-Q.
San@e S$zeCmie IetterQ........................
X-R.
San@e SizeCock LetterR........................
vi
20
22
24
26
27
28
29
/
30
31
32
33
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
/’
MR-.5TD-1OSE
)
CmnENrs
- amnued.
~
x-s .
Sa@e
Size Cc@e Letters.......
.................
66
PanCJraph
6.
6.1
6.2
6.3
twnzs............................................
61
IntendedUse...................................
SubjectTezm (keywozd) Listing................
67,
_fmp=viousIs
:
sue.,.
...............
...
aNmlDIrK tamRIAL ..............................
vii
68
W*1OSE
AND TAEES
sJueLIK P~
FCR lNSP~ICM BY ATmmlm2S,
1. -DE
1.1 Purpose. ~s publicationestablisheslot or batch sanplingplans ad
prcesiuresfor inspectionby attributes.‘mis @limtion shall not be “inter
me Wrds
pretedco ~
or am flictwith any contractualm@xwmtS.
‘Bae”’, “~”,
“~tile”,
etct refer ~y to ~
~tr~o~s
use of
theqling
plarscontainedin thisstandard ~donotitrplym
agre9mntby
the @vernmm
to Saept any prcduct. Eeterndnationof acceptabilityby the
GOVS17X~ Shallk as &scri&d in amtrectual doam-ems. me San@ing plans
describsdin this standsd are S@iable
to A(2L’sof .01~rcent or higherand
are thereforenot suitablefor a@i~tions where qualitylemls in the &fective
parts p millioprange can be realized.
1.2 lwl:~$.
ML not lmt
San@ing plans &signat.e3in this publi=tion are eppli~le,
, to impection of Ule follcwing:
a. Fml itens.
c. *rations or services.
d. Materialsin pmmss.
e. Su@ies
in storage.
f. Maintenanceqerstions.
9. Data or remrds.
h. Adniniszrative
procecbres.
lWse plans are intendsd primsrilyto M used for a continuingseries of 10CS
or bat-.
l?h2plans my also be used for the inspectionof isolatedlotsor
bacchss,but, in this lattercase, the user is cautionedto consultthe qx3rSting
characteristic
cumes to finda plan wh.itiwill yield the &sired protection
(Sse4.11).
2. PEm@Km
IxnMNcs
‘
2.1 Not ~licable.
3. DEFINITI@JS
,,
1
mL-s’Imlo5E
3.1 AcceptableCualityLevel (ML). m
a continuousseriesof lots is
considered,the AQL is the qualitylevelwhich, for the purpses of sanpling
inspection,is the ltit of a satisfactory
processaverage (See3.19).
Nc7rE:A sanplingplan and an AQL are tisen in accordaro?with the risk assunsd.
Use of a value of AQL for a ~ain
defector group of defectsindicatesthat the
s~ling Pl~ till athe -t
~joritY of @
lots or batP**
processaveragelevel of percat &fective (ordefectspar hundredunits)in these
lots or batchesbe no greaterthanthe designatedvalue of AQL. Tnus, the AQL is
hurdredunits) for which
a desiqaatedvalue of p2rcentdsfective(ordefects~
lotswill be acceptedITOStof the tfi by the sapling prcedure being used. The
aanplingplans providedhereinare so arrangedthat the prdability of acceptance
at the designatedAQL value deps!nds
upon the sanplesize, ~ing 9enerallYhi~er
for large s.snples
than for smallones, for a givenAQL. The AQL done does not
identifythe chancesof accqZing or rejectingindividuallots or batchesM nure
directlyrelatesto what mightte exp+ctedfran a seriesof lots or batches,
providedthe steps indicatedin this publicationare taken. It is necessarYto
referto the ~ating
&aracteristiccurve of the plan to deterndnethe relative
risks.
3.2 Average GutgoingGuality (AD2)
. For a particularprocessaverage,the 7@ is
the averagequalityof o~tgoingprcductincludingall acceptedlots or batches,
plus all reject+ lots or bat&es aftertinerejected’
lots or batcheshave keen
effectively100 ~rcent irqxcted and all defective replacedby non-rkf
ectives.
3.3 Average cXIt90ing
C?JdityLimit (ACQL)
. TheJKX)Lis the n-axhrnAD2 fora
given a~ptance Sa@ing plan.Factorsfor -t
ing AD2L VS1= ~ 9iven in
TableV-A for each of the singlesapling plans for normal inspectionand in
TableV-B for earh of the singlesanplingplans for tightenedinqection.
3.4 Classification
of Defects. A classification
of defectsis the emneration Of
Pssible defecLsof the unit of prcductclassifiedaccordingto their seriousness.
3.5 Criti& Eefect. A criticaldefect is a defectthat jud-t
and experience
indicatewould result in hazardousor unsafeconditionsfor indivitialsusing,
maintaining,or ciqendingupon the product,or a defectthat judgmt
ard
~rien=
indimte is likelyto prevent~rformsne of the tacticalfunctionof a
major end item such as a ship, aircraft,tank, missile,or spacevehicle.
3.6 CriticalDefective. A critid defectiveis a unit of productwhich
containsone or mre criticsldefectsand nay also concainIMjor and/or&or
defects.
3.7 ,~fe.
A defect is any nonconformance
of the unit of productwith
ef~d
requirements.
2
MIL-mlosE
3.8 Cefectiw. A defectiveis a unit of procbctwhid containsone or nure
defects.
3.9 Defectspr Hundr@5Units. Ibe nurberof defectsper hundredunits of any
givenquantityof units of productis one hundrd tires .ttienu-&erof tkfects
anltainedtherein (oneor nure defems bsing ~ssible in any unit of product)
dividedby the total nunbsrof tics of product,i.e.:
Defectsper
lmldredunits
.
Nun&r of defects x 100
Nun&r of units impe@sd
3.10 -ion.
Inspectionis the protessof mssuring,
or ~se
~in9
the tit of prtckm with the requirsfmts.
,
, testing
3.11 ~on
Whersby
by Attributes
. ~ion
by atcri.butes
is ~on
“
eitherthe uruc of prcduct1s classifiedsinplyas defectiveor non-defective,
or
the rnm&r of defectsin the unit of prcductis wunted, with respct to a givz2n
~~t
or set or rqi~ts.
3.12 LOK or Batd. The term lot or batch shallnean “inspectionlot”or
“’-Lion
batch-,i.e.,a collectionof units of productfrom which a sapie
is to be drawn and irspsctedad ray differ fran a collection
. . of unitsdesignatd
. .. . .
..
as a..La—..—.
or oacm ror ouer pupses (e.
g., prooucuon, snqnent, etc.).
3.13 E
or Bst~ Size. The lot or batch size is the nunberof unitsof prcduct
in a lot or batch.
3.14 Msjor Defect. A mjor defect is a &fect, otherthan critical,that is
likelyto result in failure,or to A=
mterially the usabilityof the unit
of prcduct for its intendedprpose.
3.15 N!ajorCefective. A mjor defectiveis a unit of prtductwhich containsone
or mre msjor *fects, and ray also containminor defectsbut containsno critical
defect.
3.16 minor Defect. A minordefect is a defectthat is not likelyto reduce
materiallythe usabilityof the unit of praiuct for its intendedpupose, or is a
-=
frm establiah05stmhrds littlebearingon the effectiveuse or
qeration of the unit.
3.17 Minor Defective. A minor defectiveis a unit of productwhi& containsone
or nxxe minor defectsbut mains
no critid or m jor defect.
3
MIL-STD-105E
3.18 PercentDefective: The percent&fective of any given quantityof units
of productis one hundredtk
the nun-her
of defectiveunits of prcductcontained
thereindividsdby the totalrnnnker
of unitsof product,i.e.:
PercentDefective
=
Nwber of defective x 100
Nun&r of units inspected
3.19 Pnxess Average. The p-ss
averageis the averageprcent defectiveor
averagenu&er of defectsper hundredunits (whitiever
is .s@icable) of produ~
subnittedby the sqplier for originalinspection.Original~ion
is the
first inspectionof a particularquantityof prcductas distinguishedfrcanthe
-tiion
of PrOdUCttiti has keen resuhn.itted
afterprior rejection.
3.20 Sanple. A .sa@e consistsof one or !mre units of prduct drawn fra a lot
or batti,the units of the sanplebeing selectedat rancbnwithoutregardto their
quality. The ntnrberof units of productin the sa@e is the sa.nple
size.
3.21 SanPle Size Cede Letter. The sanplesize code letter is a deviceused
alongwith the AQL for locating’
a sanplingplan on a table of san’pling
plans.
3.22 SanplingPlan. A sanplingplan indicatesthe nunber of units of prcduct
fran each lot or batti whi& are to be inspscted(sanplesize or seriesof
sa@e sizes) and the criteriafor *tennining the acceptabilityof the lot or
batti (arreptanm and rejectionn-rs) .
3.23 Unit of Product. The unit of productis the thing inspsctedin orderto
as defedive or non-defectiveor to count the nunber
determineits classification
of defects. It nBy be a stiglearticle,a pair, a set, a length,an ~,
an
opsratia, a volm, a ccsrponent
of an end product,or the end prcductitself.
The unit of prcductIMY or nBy not k the sam as the unit of pur&ase, aqply,
production,or shipt.
4.1 WrittenProcedures. Writtenproceduresare o~ily
develo@ and mde
availablefor the ~t
representative’s
review,upon request. Wnen the
writtenp~
indicateuse of this stadard, they Shall DYl@y with the
~S
of this standardand referenceappropriateparts as necY2s.SaZy.
4.2 Nonconfonnanm. The extentof noncnnfonrance
of product shallbe exprersed
either in terms of percentdefective‘orin termsof defectsper hundredunits.
4
FKL+TW105S
4.3 Forrnatian
ad Ick!ntif
irationof &s or Batches. The prcductshallb
fiablelots,sublets,batches,oriniuti other mrun2ras
asssn’bled
into icknt.i
may b? prescribed. Each lot or Mtch shall,as far as is practicable,consist
of units of productof a singlet~, grack,class,size, and crqosition,
manufactureduncisressentially
t.& sane ainditians,and at essentiallyt& saue
tim . Tis310tsor bstchesshallbei&ntified bytheamtractor andshall be kept
intactin i@quate and suitablestoragespace.
4.4 —
AQL.
4.4.1.AQL use. ‘Me AQL, tqsther with the Sa@e
~
-1*
Plm provi&d hareixl.
Size Co& b?tter,is LEA for
4.4.2 Limitation. The sele&n or use of an AQL shallnot iK@y that the
contractorhas t& rightto sqply any &fective.unit of produa.
DifferentAQ1.sray be chosen for gruupsof &fects
Ziis%%%%%iy,
or for indivicha.1
&fects. An AQL for a group of &f_
my Ix chosen in ackiition
to AQIa for individualdefects,or s@roups, within
that gfoup. AQL valussof 10.0 or less way be eqxassed titherin prcent
defectiveor in defectspsr llundrqdt5; those over lo.o shallbeeqress@k
defectsper hundredunitsonly.
4.5 San@inq.
4.’5.1@xesentative C3tratif
ied) SallQlinq
. When ~ropriate, the nunterof
units in the sanpleshallEe selectedin ~rtim
to the size of subletsor
Su&bStCkS, or parts of the lot or hat*, identifiedby m
rationalcriterion.
When reprasentatives.a@irq ia used,the units frm eati -lot, s&-batdl or
part of the lot or batd shall& sel~”.edat randan.
4.5.2 Tine of SamJ1inq A .sanplemy be drati after all the units culprisiirq
tk lot or batch have &en assmlsd, or aanpleunitsmay be drawn duringassenbly
of the lot or batch, in whiticase the size of the 10C or batti will be determined
&fore any ample units are drawn.If tl-e.5an@eunits are drawn during~ly
of the lot or htti, and if ths rejectionnun&r is reachedbeforethe lot *
Cnl@eta
that pxtian of the lot alreadyclxlpleted
shallbe rejected. m
cause
of the defectiveprcductal
be determinedand wrrective actiontaken,after
which anewlotorbatch~h
begun.
4.5.3 Lhuble or FldtipleSaq3Ml-q hhen double or multiplesanplingis to be
Ussd, Sach sarpleshallbe selecttiover the entire lot or batch.
5
MIL-S’ID-1O5E
Inspection P~.
Normal~ion
will ke used at the start of
Normal,tightenedor reducedimpction shall continueunchangedfor
~ion.
each classof defectsor defective on succf2ssive
lots or batchesexceptwherethe
P~
s~l
switdd.ngpmcedums given below require&ange. The tit-9
be a@ied to each class of defectsor defective independently.
4.6
4.7 switdimq Procedures
.
4.7.1 Normalto Tightened. When normalinspction is in effect,tightened
~ion
shallbe institutedwhen 2 out of 2, 3, 4, or 5 consecutivelots or
bat&es have been rejettedon originalinspction (i.e., ignoringresutxnitted
lots
or batchesfor this procdure)4.7.2 Tigirtemdto Normal. When tightenedin-ion
is .tieffeet,normal
~ion
shallEe institutedwhen 5 consecutivelots or batcheshave been
consideredaceptable on origti inqection.
to Reduced. t?nennormalinspectionis in effect,reducedinspection
shallke institutedprovidedthat all of the followingconditionsare satisfied:
4.7.3 Nod
preceding10 lots or bazches“(ormore, as indicated by the note to
a. T’FIS
TableVIII) have been on norrnslinspectionand all have been acepted on origha.1
~ion;
and
The total number of *f ectives (ordefects)in *
samles frm the
pm&”
10 lots or batde.s (orsuti onmber as used for conditim “a”
amve) is qua.1 to or.less than the appliwble n-r
gi- in Table~11. If
doubleor mltiple san@ing is in use, all sanplesinspectedshouldte ticluded,
not “first”sanplesonly; and
c. Productionis at a stezdyrate; and
d.’ Reducedinspectionis consickreddesirable.
to Nor&l. men reducedinspectionis in effect,norml inspection
shallbe institutedif any of the followingoccuron originalinspction:
4.7.4 RducA
a. A lot or batch is rejected;or
b. A lot or batch is cmsidered acceptableunder the proceduresOf
4.10:1.4,or
c. Productionkecmes irregularor delayed;or
d. Other conditionswarranttit normal in~~~ion
6
shallbe instituted.
~-S’ID-105E
4.8 Discontinuation
of Inspect
ion. If the cumnul.atimrnnrber
of lots mt
a~~
in a sequenceof mnsecutive lots on originaltightened~ion
reachesfive,the acqxanoe pmcedums of this sllamlard
shallbe dismntilnled
.
~ion
w
e
p~sions of this stmdard shallnot be resumeduntil
correctiveactionhas teen taken. TigthenedinspecU“onshall thenteusdasif
4.7.1had keen invciked.
~.
4.9
mg Plans. .
4.9.1 Inspectionlevel: me inspection
“
level&termines the relationship
ketu=en
the lot or t.atchsize and the ssnplesize. mehsp2ction levelto be used for
. -Y Particuk Ze@mnent till be as prescribedby the mmractor’s written
prceddres. l?ireeirqection levels:I, II, and III, are given in TableI for
genemiluse (s&4.1). Normally,InspectionEvel II is used. However,
Inspectionml
I my & used when lessdiscrimination
is needsd,or I.@_dIII
my * used for greauerdiscrimination.Four additionalsfeciallevels:
S-1, S-2, S-3, and S-4, are given in the dam table and my ~ used khre
relativelysm.11 sanplesizesare ~sary
and large sanplingrisks~ or rust
be tolerated.
In the selectionof inspectionlevelsS-1,co S-4, ~
rust be ex-~ised to
avoidAQ1.sincnnsist4ntwith +ase impection levels. In”othsrwords,the purpsa
of the special ~ion
“
levelsis to keep sanplessmll wtiennem.ssary. For
~=,
tb5 CO& letterSun&r S-1 go no furtherthan D, equivalentto a Si.@e
sampleof size 8, but it is of no use to -Se
S-1
if tha AQL is 0.10 peromr for
wfi~ the mininnmsampleis 125.
NYIE:
~
4.9.2 ~
~ters.
Ssnplesizes are &signatej by-tzxb?letters. Table I shall
be used to find the applicablecode letterfor the ~icu.lar lot or batdlsize
ad the prescrikesl
irqection level.
4.9.3 Cbta.Wq SanplingPlan. ‘lk AQLandthe cods lettershall be usedto
obtainthe sartpling
plan .&m Tables II, 111, or IV. Wnen no smpling plan iS
am.ilablefor a given combinationof AQL and co& letter,the tablesciinxZthe
user to a differentletter. Tne San@esize tokusd
is given bythenewade
letter,not by the originalletter. If this p~
leads to differentsanple
sizes for differentclassesof defems, the cede letteraimespmdq
to *
_
~le
size -ie
my ke used for all CI.SSSCS
of ckfeci.s.k an
alternativeto a singlesanplingplan with an a~
nurr&rofo, the plan
nm&r
of
1
with
its
cor~
ly
largersanple
size for a
witi m ~
-igqated AQL (whereavailable),may be used.
MIL-S’ID-1OSE
4.9.4 Typ2S of SalIpling
Plans. Threet~s of sanpltigplans: Single,Eooble,
and mltiple, are given in TablesII, III, and IV, respectively.When several
typesof plans am2 availablefor a givenAQL and code letter,any one my ke used.
A decisionas to type of plan, eithersingle,double,or nultiple,when amilable
for a givenAQL and ccxieletter,willusyallyhe based upon the cmparison betthe administrative
diffim.ltyand the averagesanple sizes of the availableplans.
Tne averageaanplesize of mltiple plans is less than for double (exceptiri.
the
case correqmndingto singleacce@nce nmber 1) and both of these are always
less thm a singlesanple size (seeTable IX). Usuallythe ~Stiatim
difficultyfor single sanplingand the met per unit of the .san@eare less than
for doubleor multiple.
4.10 Determinationof ~
ability.
4.10.1 PercentDefectiveInspection. To determineacceptabilityof a lot or
batchunder perrsmtdef=hive inspection,
the a@icable sanplingplan ehallbe
used in accordancewith 4.1O.1.1,4.10.1.2,4.10.1.3,and 4.10.1.4.
4.10.1.1 SingleSaq3ltig Plan. The nunbarof sampleunits inspectedshallbe
equalto the ~le
size givenby the plan. If the number of defective found in
the sanpleis equal to or lessthanthe acceptancenumber,the lot or bst@ Shall
be considereda-ptable.
If the nunkerof defective is equal to or greaterti
the rejectionnunbr, the lot or batti shallbe rejected.
4.10.1.2 DoubleSap 1’
q Plan. A n-r
of sanpleunits equal to the first
sanplesize given by the plan shallk ~ed.
If the numberof defective
foundin the first eanple is equalto or less than the first accqtanm number,
the lot or bat~ shall be mnsidered acceptable. If the nuntxr of defective
foundin the first .san@e is equalto or greaterthan the first rejectionrmbert
the lot or batti shall be rejected. If the nmber of defective found h the
~irstsmple is ketweenthe firstaccqtane and rejectionnumbers;a second
smple of the same size shallbe insp3cted. The nurber of defective found in
the firstand second sanplesshallM acnnmlated. If the cumlative nmber of.
defective is equal to or less thanthe secondaqane
number,the lot or batd
shall* mnsidered acceptable. If the emulative nunter of defective is W
to or greaterthan the ae.mndrej-ion nunber,the lot or batch shall&
rejetted.
4.10.1.3 ~tiple Sanple Plan. Undermltiple sapling, the proedure shall m
similarto that specifiedin 4.10.1.2,exceptthat the nmber of suassive
sanplesrequiredto reach a ckcisionmy be as many as seven.
4.10.1.4 ~al
Procedurefor -cd
Irqectim. Under tied
insp52tion,the
Swim
P~
~Y terminatewithouteitheracceptanceor rejectioncriteria
hatig teen mt. In these circmstantes,the lot or batch will k considered
a~able,
but normal impsction will k reinstatedstartingwith the nx
lot or
batch (See4.7.4.b).
8
MIL+3IW1OSE
“ ity of a
4.10.2 Oefectsp
HundredUnits Inspect
ion. To determinet+? a
~~fid
lotorbatch un&r*fectspsr hundredunits inspection,the promdum
for permnt defective inSpettiM
aiwve
shall& used, exceptthat the word
“defects”shallk substitutesfor “Ck!fectives”
.
wity
Protection.IIY2~hg
plans W ~a~
P~
-s publimtion =
&signed for use where the units of productare
~XG
in a continuingseriesof lots or batchesover a period of tim2.‘Mouemr,
if the lot or batcA is of an isolatedrbstum,it is cksirableto limitthe
se.kcdon of sanplingplansto those,associatedwith a dsal~t~
_ ~~1
~t
prcmt& not less than a specifiedlimitingqualityprotection. Ssnplingplans for
this PUZFOSScm * seksed by -sing
a Limiting~ity
(UD - a ~’s
risk to te associatedwith it. TablesVI antiVII give values of LQ for the
the Cxmnnly used comumr’s risks of 10 percentand 5 ~t
respectively.If a
differentvalue of comunT#s risk is rquired, tk O.C. curves ardtkirtilatedvalues my be use5. Tmmncept ofmmlyalsobe usem
inspacify+lgthe
AOL and I~im”
Levelsfor a seriesof lots or bat-s, thus fixingndsumnn
.sanple
size where there is Sam reason for avoiding (~fi mm ~
a 9i=
mnsmer’s risk)ITCIre
than a limitingproportionof &fecti(orc@f~s) in -Y
singlelot or batti.
4.11 Limiting
4.12 Curves.
for
4.12.1 @crating maramsristic cumes. ‘me oparating~eristic
~
norml irqection, shown in Table X,
mte the percentageof lots or batdes
whichmay be enp2rtedto be arceptedunder the variousSS@ing plans for a given
proa?ssquality. T& mrves ahcnm are for singleSa@ing; cumes for dmble and
mlciple ssa@ing are retchedas closelyas practicable. The O.C. ~
for AOLs greaterthan 10.0am based on the Poissondistributionad are a#icable for defectsper hundredunits inspe&cion;those for AQLs of 10.0 or less and
~le
SiZeS of 80 or 1=s are based on the binonialdistrilmtim ad are
qlirable for permnt defectiveinspection;those for ~
of 10.0 or less @
sample sizes largerthan 80 are based the Poissondistributionand are S@icable
eitherfor defectsp3r hurdredunits ~ion,
or for parent defective
-on
(* poissm -him
being an adequateapproximation
to the
to
binmual distributionunderthese mnd.itiona)
. Tabulatedvalues,~
4-4
VS-hIasor pmbabiliciesof ~anm
(pa,in percent)are given for eati
Ofthealrvee shown,m
in addition,for tighten@ inspection,h
for ~f~
p2r lnmiredunits for AQIs of 10.0 or less and San@e sizes of 80 or 1-.
4.12.2 Awsraqe~le
SizeCumes. AverageSan@e Size C@FSS for =le
and
multipleaa!plingare in Table IX. These show the averagesamplesizesuhirhmy
be ~ed
to ocmr underthe variousaanplingplans for given levelsof prcKJ2SS
quality. lhe curvesassureno curtailrmntof insertion arslare ~roximte to
the extent that they are baseclupon tttePoissondistribution,and that the Sa@e
sizes for doubleand mltiple aanplingare assuredto be O.631n and O.25n
~itiY,
tie n is the equim.km qle
size.
9,
MIL-STD-105E
=ICN
5
TABI&SANDmInlES
11
c
c
s
so
1200
3203
. to
to
to
to
10
10
to
to
to
10
10
md
26
51
91
1s1
281
sol
iml
3?0)
lmol
3s001
Isoool
S00301
over
Woooo
IW303
mooo
Imoo
S30
280
1s0
93
A
D
D
II
c
c
B
B
D
B
A
A
A
to
15
16
0
s. I
la
,
aim
to
bmb
2
cu
9
lxx
“fABLE
t
E
E
0
IJ
II
G
G
F
F
E
D
D
c
E
.0
“c
o
u
A
A
s-3
c
c
c
B
D
D
A
A
A
s-2
level,
!ipecid
i.qwcdon
Jizecode /eflers
1’— .$amph
K.
J
1
N
N
N
u
n
o
P
N
P
N
N“
K
L
1!
L
L
K
J
K
N
G
G
J
J
II
G
F
E
II
F
E
E
G
G
F
o.
D
F
E
c
c
E
1)
c
0
c
u
111
c
.C
B
A
II
hwda
0
A
A
I
Inspection
D
A
A
S-4
Gencr81
(see4.9.1ad 4.9.2)
191*1~
1:1,
i~-lvv
NORMAL
14
-I
AA”
I
-1.
-
-
I
I
.
15
SINGLE
TIGHTENED
00
:
1!-d.
J“ q.,!.
,
1
m
m
0
—
n
—
m
11s
!,.
.
t
k
-
.--1..
11,k =..,8.%.
u.,
-, ....
1- “.—
—
. ...
. ..+.. b.. k..
h ii., .. W11”4pi.” WI.. m..
u.,
n“, . ..+1..
,C,vvti=,
~*,,ph. b.. .“..
,.<6,
b. *b ..kh.
18
—
u
—
N
w
L
P
50
M
..-b..
h. w k..
“Ad,
.,9,
hp.< 8!”..
I
10
11
—
,A. 1.,, M .$.,,,,.
- ?.CK+S!+ “ b.kh .:2., ti lw w-..,
;
II
10 13
7 1010
981
165
J
—
5
2,3
m
II
H
1
1,1
1>
c
-d
l..pa.”
a
F
—
v
—
s
—
1
—
Ill
5
E
01
3
1
I
02,
3
[)
—
1
0
—
1
c
—
,
1
2
1
—
1
~
z
—
—
P.. 4,tal,4,
(Mater
t
&
-
~
inspection
2
plans /or reduced
1
A, R,
—
0.01s
—
—
sampling
4
—
s..+!.
dw
II-C— Single
B
..!
5,.
d,
.-
—
TABLE
.
6
table)
(see
4.’3.3
ad
4.9.4)
I
83
2
;
.
ltldl::
-1,1-1.
. .
-.”.”.-..
_==a
T
1::1::1::1: il::l::l::l~l
lf=l’+lO-
i--l--1--1--1
-,1-=
l,slk-””-—l
DOUBLE
17
NORMAL
s
,,
,..
“,
,,
eo-
“
w “m
aw
t’,!,!
+. .A
ton
,.w
Z5m
-w
Ima
!
nm.
Ku
cm
Ym
*m
,,,
.x4
m
m
,,,
,:
1:
:
40
w.. .1
l’,,.
%. d
ml
ml,
W,
. 4
$- 0
m
v,,. s
1,
,,
, ,;
, ,5
K, .,
& .. .
\
m
m
,H
12s
v,,.,
%.
. .
r,,,,
1,.,,
‘.. “4
:
:
rl “8
s . ..d
*
12
,/
.x!
4
n “,
s.,
:,”’ ;
I
.-J
:
,,
1,
, ,,.,
,:
0
m
..,..4
,9
;
,
,
i
,
..4.
,1,.
, ,,.,
. . .
,
,
-“.,
+;,.,
.,
?
,
! ,,.,
F“.,
* -I
,,,.
“!
*
.
[“.
~d. ,,.+, 1.,..
w
,,
,
1
,,
,;
v
,
,8
,.
,,
,
,..
.,,,,
,,,,
.+?
..*-
U,. C.”W...%
-
.,dm
$,.,.4”
=,
,.”.
,“”.
.4.,,, .q.,,v
,,,. .I-..
,!., n,,, ,.q,k,
.,,...
,1.. hi..
1!.. n?.!..+,.,
—
,,,,,
—
,. ,
!)..,.,
7
1
,,
.,,. -#.
.“
,+”!., ..+..+
1.1.., .!-.
- ,W...l. 1.. ,. 1..,, ,,,,, A. ,m
,,
1’
I*
1,
12
12
:
s
I
,“.WA..
. ..tl.hl.l
,.”,.,
1:
—
,5
—
T
11
T
6
@ o
,
1
7- -7
]
,
7-
T
,
—
i
-J
,,. ,,
,.
,!
I
T
●1
..”..,,m,
u
,. ,, ,.
4.
, ..,.,. ,,,,, !....,
inspection
/“
!
1
_
r—
—
,,,,,
—
,,
—
,.,.”...
plans /or tightened
1
II
,“
—
,,.-,
—
,. ,,
—
k. .h.-m,..,,,
—
.,
—
sumpfing
II ..+
,8”
III-B — Double
=
-
TABLE
0
—
(Mater
lulde)
(see 4.9.3
and
I
4-9.41
lm#_Sm-lo5E
1
!1 tl~l.
.
.
1
Ibldl::l::’1
1
1
1
!
1
I
1
1
1
,
1
,
1
DOUBLE
REDUCED
19
,,,
,,,9
w“~.1.
NORMAL
20
h
,.
r
.
.
,.
.:
a,
s
.
“
.-4
.W
.-
::
::
,.,
::
01
,,;
,,,
,,$
I -.
. ..4
,b.1
,-1
,ti
t -..1
, *.
*..
*-.
.
,,.
.
...
.-.,
.W
w
ma
*,
.
.
E
m
,,,
,,,
.9J
.-.,
.9!
.W
.-
lb,
s
, ,=
%.-8
,..
---
.4
,-
,..
.
,*8
* -s
:
.
..4
::
,*
. ..
..-
.
.
.
.
*..
,
a.
:.
*
.
:
,:
,!
c
L!
u.,.
, -b
,..
..d
.-.
.“,
,
:2
.4
z
,.. ,:
-+4
.
.1
.
TABLE
.
.
,.1
,8,11
,11*Y
,>
,11s9
,,4s6
,2,
.*
-..
,-----
-
-d
1,3
.,*
t
.1
v
..!.
t!..
,.
● ,O
1,8
,,,
2.,
n?.
.10
.1,
U-”..+.a#-.
Lb. !.. ..+.”
,,,.!.
n
“lb
-
..+”
. 1.!
b. -.
-
4
*.
.1--1
. . .
IA. 1. .l.”..d+,
. ..+.
b.1.o .-.
-,
.-.
-
-..6”.
Ii
[
1,
*M!
n
..”... & .--e
.
-
-
m
,M
”..4.
.
@
-1..,
. . ..”!1
--.-$
*I.,
,-.-,
*.
. ..44..
“-.-@-,-lo-o-
,,..,.
. .
...+.
,,
,,
“
idam /or normal in$Peclio~~ (~laJl~
4;,.!.4
samblin~
1
.{n*,,,,
u
—
,,
ICI
—
.
[V-A — Muhible
—
,19
—
table)
(SCwl.9.3
and
4.9.4)
,7
/
11,,111
$@.
t!
I
l""'"
"'""l-"-"
--"l-------l-------l=
MULTIPLE
TIGHTENED
22
:2===
=leeeRaeel
1-
M3A3ID-105E
MULTIPLE
TIGHTENED
23
m
#,”mn#ln
c)@.,
MULTIPLE
“REDUCED
24
.l.
*
1
1
1
(
:::2:::
~
..-.==C=
..===~fj
,--
--------
.
-.-s=::
.-
”-----
..-.==
~
-..-.=2C:
..:==~~
s=
---s:=:
.“.
-----
-.”
.
.
.
..~
..
-”---
-------
.-
”----
-..
..s
--.
--ce= aa
-----3s
.-
.- .=:==
.--.
--------
--------
--------
-..
.
6---”
.
.
.
.
--------
...e.-.
.
.
.
..eeoe
-
.
.
.
.
-
.
.e
e---”
.
.
.
.
..-
.
.
. ------
..
:::::::
:::::::
.
-
.-
~
.
.
*
.0
e.”-.
.
.
.
.
-..”..
.
..
0----
.
.
.
.
.
~
.
.
.
..-
--..”-
“..---..-
.--*---
.“..
~
.
:::::::
.
-------
””,,.-.
-----.
--------
..
--=:
---=-r.---
---.=
.e -””--
e-””-
.-
.
..==:
-.-~:g:
. ..-””..
1
---=2==
-------
.
(
.=::
”.”.
-------
MULTIPLE
REDUCED
25
MLL-STD-ICISE
1
j{
I
-mu
I
Owk
26
I
ur
-
I
I
Xaa!
Zn.
o
a
I
MIA3IW105E
I
I
:..
is
:
1
::
:--”
-.
.
-.
I
I
.
.
I
I
14° I ---1-’” 1=44
.
t]
I
I
I
I
I
Usg1ilg
I
+
I --VI”-- Ie=-ltia=l=-ol ‘- I
AOQL
TIGHTENED
!s
Zz
~~
>M
m
..
5
8
13
20
c
D
E
F
125
21m
315
500
m
I250
2000
K
L
w
x
1’
1)
II
J
32
50
80
G
II
D
2
3
Sample
.i.~
A
code
1=,,,,
=!
<
R
-n
-
—
—
0.18
—
0,29
D.27
—
—
0.31
.
.20
).46
0.73
—
—
—
—
—
).46
D,53
—
1.43
0.78
1,8
0,67
.33
—
—
—
),59
).74
—
3.84
1.1
1.2
—
2.0
—
—
2.77
0.94
—
1.2
I .3
1.7
—
2.0
4,5
l..
. .
1.0
1.2
1.5
1.9
2.1
2,7
3.1
6.9
0,40
0.65
1.4
1.6
1.9
2,4
2,9
3.3
4.3
4.8
11
Level
sampling)
2.3
2,5
3,1
3.7
4.6
5.4
6.5
7.6
16
1.0
/or which Pa
Acceptable Qu.lity
Single
0,1( 0.15 0.2
—
—
—
—
1.49
I .2
0.06
—
0.04
—
Inspection,
Quality (in@rcent dejectiue)
(jor Normal
VI-A — Limiting
0.0100.01 0,02
—
—
TABLE
=
.
3.5
4,0
4.9
5.9
7.4
0.2
10
12
25
].:
10 Percent
30
36
41
68
6.:
—
14
19
—
16
22
27
—
—
—
(see
54
44
42
58
10
—
—
34
29
24
—
23
—
—
r
4.11)
vi
32
50
20
In
mil
315
503
c
II
J
K
L
u
!i
m
20
F
II
13
E
u
0
0
203
5
c
1250
3
II
1,
2
al,,
1,,,”
A
~+
CA
0 .18
0.01
m
,A6
,02
,1
,3
,,7
m
1.(
—
I ,5
1,2
—
,2
,94
—
,11 1.0
—
b
1!
s!
49
43
—
23
1,1
—
I ,9
,3
J
2,3
—
2,5
S,6
6,0
3.s
3,1
6,4
4.9
I.!
7.1
9,4
5.9
7,4
12
13
8,4
11
II
m
46
2,5
12
2.,
2)
I
4,6
3.:
3,1
—
54
4,:
2,I
6,1
—
1,0
18
2?
I .5
4mpIAJ.
1.0’
—
4.,
—
12
—
D,6
.7
—
1,1
1.2
04
,2
6
m
2,7
,9
1:
—
9,0
10
12
Is
N
2i
21
m
71
4,0
wI;I,
n
16
14
25
19
68
31
31
‘2?
24
—
35
—
40
59
—
91
St
h!
71
71
46
51
11
12(
13(
—
la
E
25
—
84
’10
—
120
—
15
—
33
67
78
10
49
Im
6,5
Led
Qmdity (in de/ec:$ per hudred
units) /or which
(Ior Nom,al inspection, Single farupling)
,0
2
,W
TAL?LE VI-B — Limitiog
1(
1(
1,
?
1
i
6
Pa =
22(
2s
311
3%
i
la
w
m
lol
—
m
~
,60
tic
61
v
w
la
94
i
u
I@
—
30
ii
Et
—
Ikax
z
m
(=X 4.11)
61(
ii
w
10 Percen:
m
10
In
1
.
0
$;
gs
8
13
20
D
E
F
125
200
315
500
800
1250
2000
K
L
N
P
R
v
M
J
32
50
80
G
H
A
B
c
qi ze
2
3
5
letter
cede
S.mple
—
).24
—
—
.38
—
,24
,60
—
—
—
).66
.53
).84
.62
—
.39
).97
.79
1.32
1.3
1.s
3.7
—
—
0.15
Quality
.%
.50
—
.59
.5
—
—
!. 4
0.10
—
0.06
—
).38
—
).%
—
—
—
—
—
—
0.04(
—
0.02
—
Acceptable
—
2.1
1.0
1.6
1.4
—
.1
—
1.05
—
1.5
2.6
3.3
2.1
2.5
—
3.9
5.0
5.8
14
,
2.4
2.7
3.4
4.2
5.3
6.2
7.7
9.1
21
0.65 1.0
2.0
—
1.6
1.3
[.1
—
1.2
1.8
2.4
5.8
&9
0.25 0.4(
—
—
—
Level
—
3.8
4.4
—
5.4
6.6
8.4
—
9,4
12
14
31
—
I .5
—
.
—
11
8.5
7.0
—
6.1
—
9.6
14
16
13
—
11
2G
23
28
32
63
4.0
—
15
18
22
—
45
—
—
2,5
—
Quality (in percent defecii.e)
for which Pa =. s Percetat
Normal Inspection, Single s~mpling)
0.01
—
(for
VII-A — Limiiing
0.01(
—
TABLE
10
15
18
20
2s
—
24
26
—
32
37
46
—
34
30
50
60
66
—
—
—
4.11)
41
41
7B
6.5
(see
~
s~
ml-
n
-n
g
32
w
m
In
200
31s
m
G
n
I
Ii
L
u
N
m
m
F
t,
13
E
6m
8
o
I=
s
c
Q
3
B
P
2
,!tl
1,11,1
A
so.+
Gdo
TABLE
,24
,01
—
,J6
01!
,.2(
‘.C4
m
—
.39
SO
—
39
,s
—
26
—
VII-B — Limiting
s
,6
,7
,.v
,4
,11
(/or
—
,63
.64
.91
.3
.2
1,0
).1!
—
SE
1.1
—
1.3
1.6
Lo
1.4
5.0
).2
Norn,til
4,:
3.4
2.1
1.3
—
L6
!.1
1.0
1.5
2.s
—
!.1
1.6
1.4
—
1.1
—
s:
1.2
—
Z4
h
!,9
7.!
9:
22
1.1
i.9
Is
).6
Accqltabh
i.O
3.0
9.1
0.41
—
—
3.8
6.4
5,4
&6
61
7.0
8.s
11
13
9.1
6A
16
20
24
a
2.s
IA*,I
13
U
24
15
IJdil,
4.0
9.6
II
It
16
21
24
32
31
Im
Single
Per hundred
Inspection,
Quality (in da/cc/s
15
la
21
26
23
29
42
E9
MO
63
/or which
—
—
24
—
27
36
41
—
,s0
—
E2
—
220
2J0270
340
IIc
m
64(
—
w
441
w
—
61(
n
05
‘5
m
—
m
w
m
—
—
1s
= .5 Percent
10
%0
WI
—
6s
—
170
-
Pa
m
?3
$5
10
smttpling)
unifs)
1
110
—
Im
Ku
—
E
w
i
7
rlo
010
tm m
ml 140
Im
4.11)
worn
(SC!?
I
I
I al...
...
...
.-- I’--- I== I
I :1 . . . ‘...
...
. . . “.. -1--1
. . .
. . .
-A=lIMIT
NUMBERS
32
. . .
m
. ..--
MXIAID-105E
. :+
33
AVERAGE
SAMPLE SIZE
3=-
;;
40
210
~
116
W,o
5.0
1 II
*-.
112
150
,-.,
!Q1
2.17
115
ma
Ill 0
“.”
Ili
69.2
S&o
250
1“
019
31.1
291
-1oo
x
WI
184
cm”
409
a
A
65
31s
196
134
ML
SAMPLiNC
. . prwtiir.blp)
FOR SINGLE
. . .l..d,
288
22:
188
121
U“.liq
120
.1...1 .-.-,
A.r?,,.bk
Iw
6$s
x
l....!.
m
“~
B70
?. *+
im.I”clknl
1..1.”.
I
I
305
18 I
I
I
!
> 10)
.I-.
517
1141
972
1272
!w1
-+22
870
1S29
133;
ID27
131
161
w
631
I
1
I
7%
I
I
174
462
61’2
521
~14mlX]6ml~l’W]~l
848
[OX
6’,1
722
hi,!+..<d
r.!..-
657
184
I
I
k. W;.
PLANS
A
I
1
I
I
FOR SINGLE SAMPLING
MI14121S151W]
512
Km
540
.J83
526
23!
202
431
I
I
CURWS
342
31I
?9U
175
2.s
284
?1I
I
121112121
I
I
16
199
CNARACTIRISTIC
091 I
111
I1M
41.2 ,I
a.]
502
b -
I 21n ,I
I
,
1.4,
FOR WERATING
17,0
12L61551107.,
,
1).1
2.%
0.!431
15.2,
I1
7s 0
“;.;.
w,
-, TABULATIO VALU[S
.511
.
I
I
TABL[ X-A-1
..trhed
CURV[S
S..plinK .-
CNARACTIRISTIC
ICn”e. 1., &&.le -d ..ltipl,
- CPERATINC
X-A — Tables jot- samp!e size code letter:
ul’hl.l I ) 111:S11!,11WF.11 LIITS b h I-I-.1 d.ki;v. f,. W.’,<
10: i. d?frm V, h..,rw,l ..it.
,.., I, F.. -...,.
“, 4,”.,,!.
0..!,!, ! . ..!. !La; ., 1. .-1
,.. P-,..,
CNART A
.- - I
au”
.
!!!
.. .
,..
10
.
.,
:“
.
.
om
1.07s
, ,,, (,,,,” m ,,,
,K,:,-rr.n 1,.,
W *t,,101
TABLE
1710
1512
1218
1081
914
I
,
I
859
995
m
1.!42
Iwu
I.ti]
1?14
812t1071ilZdl
715
629 I
PLANS
I
I
I
I
977
?270
‘2015
1128
15-13
1154
1121
I
i
I
L.J
Ln
v=
en.ba
osb*T.mI
,9.+,
,,
d-
cd,
I.ucf
10
u“
+1.
M@.”
(0( .IWM.11..I,
.,,
4
B
l.twf
.1*
0).
KS&I*
la .hicb UCCW*C*
Is
n
c
D
U.
40
.
.
t.)
I,isbt.ud
x
,
{0)
6 7B
●mbwIm 9.JUM..
bet.
1ss
s
x
Imvelml
SIZE
“
x
~
.
(.1
10
II
6m
.
(.)
12
“
A
x
.
l,)
13 11
Is
R, SCR4
COOE I.MW
Ac R. A,
I.tpraim)
m
.
l.)
09
R. AC It,
,50
(-l
SAMPLE
II. k
,00
b“ls
F@
R. A.
lj,.th,
,00
.
I,)
34
6s
l)dil,
PIANS
lb k
At,q!.bl.
As
.
I.)
23
k
40
●E4 -i-t:..
2
)
,.)
%
~
,&itCi
u-
%
Aeqi.bl.
- SAMPLING
R. k
*
lam
lb
,5
‘i’
I.W”
u..
u.,
.i””le
,*wlil”
PI*.
&a.*
(-91trm*11. cl,
Neirct.m
. ..t. t
U.. .*.I
kc+.,.,
—.
‘:;b-
~
.
V
‘
01
v
x
kc R, 4, W A. R. A.
,,s
v
c n.
,4,.
6,S
.,,
TABLE X-A-2
A.
~
.
n
R,
1.1
19 21
II.
6s0
.
P)
In
A.
lox
.
W
21
k
x - x
AC R
~
.
(.1
Ss YJl
Il.
—
2
1020
c.”.
l.ti..
..+.
it*
4,0
I
133
9.6
al
18.5
10.0
so
1,0
6,s
%
nl
I ,30
76.3
W.*
310
’350
151
09,0
43,2
6,5
5?9
‘m 1
m.6
750
%0
12.0
9.59
9.14
$00
4U
192
,“.,
,,-,.
x
1=
3.30
dnl
209.
223
x
611
%3
511
W
3%
ml
231
m
159
x
64
161
=
130
67I
A
,. p...
. . .. . ... . .-.I...4
,.-
b tik”
1.. .--.4
4W
1019
m
an
124
622
W
ma
m
..!!..
~
Ills
1~
939
ml
~
1s13
I 356
1392
1211
1241
1152
Ion
W3
116S
m
1M5
ml
832
~
116
541
~
la
m
W
W
64
41s
65 I
.419
51?
16YJ]XIICOI
SAMPLING PL4NS
B
14s
4m
3U
m
24?
fOR SINCII
w
593
W
422
347
m
m
203
-Il.)
Acc.pt.ble O..li$y 1..?.1. I!irh!..rd i.,?= li=ml
,,...!,.!..
100
115
10
6S
$33
437
356
m
4s3
3$4
221
171
210
m
Ml
m
123
!89
170
247
In
w 1
19?
141
181
1s7
8&5
131
s1.6
133
13s
87.!
Im
117
45,3
17.1
l.?!
1.51
1.70
1.6
%,0
%,9
I. OFIIO.)
CURWS
p (1. &lPC,, pa b.”ti
,m]~],w.]~]solxlalx
9,2
27.3
X.7
11.B
G
S9.5
7340
‘37,4
I
14.s
15
a,vl
4.0
0,135
*fccll.d
I
(.-.1
CNARACTIRISTIC
fox jutnple size code [et$er:
4CCWUW Ondit, L-d.
VALUES FOR CHRATING
0,134
p(1. pmw.t
I
- lABULA1[D
X-B — Tobles
9?.0
r.
TABLI X-E-I
TABLE
~
In%
‘3069
19$1
IKO
Ilw
1113
1644
Mm
Im
13.W
1344
1222
I 1s2
1027
1!49
1249
1131
Iw
941
I
Twe d
.
.
=
.
.
Wtiole
WI,
m,!,
d,.
*.mpli.~
.i.ql.
1;9. drd,l.
t:,,
6.S
,,,
lb
..n.+4i.n
pi,.
,,l..
.I.w.
,1”,,
,,5
.
v
.
c 1{
—
—
n
,h,
—
v
v
,.
—
40
,<.,
,.”,di.”
..rd~t
p,.mc. ..”!-,
11.i.., i..
kc.
L-
3
*i tt
,Ssipt,
I.*i.*
Cm.m.
to
,**
Is
—
—
c
d,
,,,,
u.!
,
10
C&
W
X- 6-2
W*1V .,.
1)
cd
.?!1,
c1
,It,,”,l,,ly
{W .It.rwt
(“
<
A
cd
.,,,
u,,
cm
—
6s
TAEL[
—
—
>
0)
[)
40
—
—
++
—
65
—
—
++
—
t;
I
3
2
o
k
40
Ac I
—
2s
—
1,11,,
!.ttw
25
*
c1
Is
- SAMPLING
r
Im
—
—
+6
—
51
1:
—
5f
K I
—
6s
—
—
PIANS
—
1
FOR
1s4
—
—
4+-
II
3
B
Il.
2s0
—
+!-
Is
61
1?
I
\
SIZE
z—
.++
21
s
—
10 I
kc
1$4
—
—
SAMPL[
z
—
*
—
4m
—
—
++
—
2
++
—
52
9 1’ 11 I
8 19 !3 ‘2
7 II
—
:
H
14 1! 18 19
—
k I
—
2
—
ml
—
,. n (c II(
—
—
—
—
COO[ LESTER:
bso
—
+
—
,4 1
52
B
:
+!-
—
113
11 2
loco
—
*
—
52!
23:
—
*
—
—
L.
lax
n
4
2
1
d,,
s.d,
I.ti.e
r.m..
w
al
I
I
In
,,,
~
144
I1,
92.I
60.2
1,0
77.0
1%
94,9
S9.9
65.7
w I
S.o
,,0
,$
a
40
201
1s5
~
262
210
IW
w
]m
x
26$
263
216
171
263
235
183
IJ6
70.4
n,a
16, I
5L.4
26.9
106
51.9
21.7
456
24.2
1V4
148
1s1
111
73.4
!02
51.3
10.0
’-
33,6
610
X.9
ICV
93,1
I
a
SAMPLING
110
m
165
)
ZN
27J
249
x
1~
x
ISI
C
601
KS
244
W
W
15
m
I
619
639
w
Ixlwa
W
B!4
7.56
691
6!1
I
I
1261
1131
1076
$~
aw
111
671
618
~ x“
1171
1064
1010
97.2
&33
15(2174916061
482
449
391
PLANS
aa,nnl,mlza
~ x
63s
745
649
621
553
!39
]V6
343
SAMPLING
(c. AOL’. >101
PLANS
mx
612
4%
i33
373
103 4s, m
401
348
293
$34
38V
3%
304
m
~S1245111E[3141M5
17J
1$4
12211301
..il.
m
J-
309
ml
213
I
..il.
WIM!MDC4
., prmlddd
CURVES FC$I SINGLE
Fr kdfd
95.4
In
[1721
70,1 I
9J.V
S2,3
21.3
T%6
I
p (i. Mt.,.
]~11.lx]lsolx]zwl~]wo
50,I
+.5
d.4.c... I i.m.. !iwl
31.5 I
40
l..,
cl.=!,
t- AfJL’. < IO; 1. d+.!,
w. b-d
L...!. ,.(XW l., ..-., .. . . . ... . .
CNARACSERISTIC
I .21.5 I W.7 I B,., I 119 I IJ1
22.0
164
I 0.72I 16.5I
8.0
IJ.9
I ..
10,
10.6
1.11
I .?.91
3t.4
?,11
I ---,.,,
I
I.OJ
0.301
5
Aec.po.b!e
lJ..li(T
nmitbed..
,mIcOtm.
i. WW<.I d.ktl.c
. . . A...,! *,.,*,,,,
VALUES FCfl CPERATING
15
12,9
11.2
,
10
50.0
I
1.71
---1,64
2.5
I ,0,
..-
2.W
!.02
“. all
..
P (i” P?me.1 dri..,~wl
2,3
- IABULATEO
.. ... ..
I
I
TABLE X-C-1
UUALITY OF Slillulnm
LoTS (p,
“..., ,,I-.. “ . .
x.
,,..
W,o
93.0
-“
. ...
p.
0C8, wlm?slm
m
,.
.
m
m
m
,.
.
.
0
.
.
.
m
00
w
?Caccllr 0, L(7TS
Cxrt:clm m at
AcCWTCO(P.!
m
. ..plln~. =
CURVES FOR SINGLE
for sample ~ize code letter:
CMRACTERISTIC
(Cur.c. f.r .bsblc ..d .dt!ple
- CFERATING
X-C— Tables
“
.
.
la
.
E;C$W%-W
&cctnl.n (?.,
lm
CHART C
TABLE
1
U.dtid.
D4J.
SJ*
d-
●#u
Tp
d
kc,
PIO. It-.
a..
d..
0..t6lt6
..
.U@t.
VW 4044.
...
m.
.&..*ti
—
AR_
●npll*
.**
4.0
—
.
—
.
tbs.
K
v
—
v
d“
(w *ltwmt
(or ,It,?m,
,049 t,..,
6,3
—
—
E
“m
.*
.“
WCeptar.
<d
,,,,”
{}
,,+ “j..,lm
—
60
—
++
—
I
1
Iv*IY LIM c8dI Iattw 0]
ho,y
k4 -k,
10
—
—
0
ma
at.
e,,
65
—
—
*
—
il
‘5
—
—
—
LB
60
—
!6
1“
PLANS
—
I
$-l
25
—
—
- SAMPLING
I
b
d
d
id
6,S
—
X-C-2
M
—
Uu aid,
N-i..
“u
@
u“
—
—
6
3
—
z—
TARlf
11
u, . ..lld..
—
Im
—
+’+
—
I
11
—
8!
LE
SIZE
6
—
z
—
+
—
—
E4
—
*
—
1(
1(
12 12
k-l!
2 13 Is
59
—
o II
U-@l
mm %
—
—
—
SAMP1.f
G
—
FOR
COD[
—
50
—
4+
—
la
I 1{
—
1 1,
S-E
x
—
—
G
—
+$.
—
$2
I 1(
—
12
&t
—
ma
—
lfTTIR:
C
—
w
—
+
—
2SI
313
—
42
—
—
n
Al
u“
s-e
in!
I
—
z
—
—
—
—
.
d“
‘0
10
2,5
x
70:1
2.5
,0
610
13,8
I ,0
57.6
59.0
31.2
5,0
486
59.3
=,6
31,4
51.8
54.0
4116
41,1
25,0
12.0
665
~~~
1,2.5
65
U,7
100
1
I
,641,,.0
---
].m
,“,>
----
0,541
O.l,d
1,5
- TABUMTEO
11.1
43.3
2m3
,I
----
22, I
,, . 7
11.1
6,06
I 5.9
=.0
,I
I
1,,,---- ””1
m..
..A.
12.1
6.22
-~
1,91
. ..,.m,
.
1.31
3,s
50.0
0.639
95,0
1s,0
0.126
I
6’5
p (1. perm.t dcfec, i.d
‘“5
9?.0
2’,
TABLE X-O-1
21.6
r
15
105
10,7
w.,
49,0
I
“ —
. . A-F. M. a..!!!, 1.”!. Imt’.l
25
126
x
.
4CWI.2.IC (MM
m
Iu
!.sr.xti.ml
1-!...
pm h.nA’ed .-it.
I.im,ma
71.1
108
07.8
6
ID3
[iig+m=d I.v.xlim
x
263
2s2
?18
m
193
Ml
!93
1s
1154
212
162
96.1
I KM
I
16,2
184
163
1 [13
I
,
59.6
135
8s.s
67.9
sa.7
U.o
]
IS
In
116
91,2
x
llB
2N
252
?11
1122
I
k
I
I
,30
m
114
339
272
233
193
171
Is
123
I
i
I
,mlx],.l~lis0]x]6m
CURVES FCX7 SINGLE
1. .-1
In dekt.
0, LOTS.X PKTUI
“Ccl,”l.
,,.,
p lia dtlccts P, 6.u.d~d onhd
Le.tl,
147
164
116
111
n5.5
W,9
121
I
%9
74.5
3.2
49,8
x.]
(-l
]~1651x]
d3.9
i
I
40
$5.911m
52.1
39.6
32,7
22,3
I
70.91
I
I
I
35
hm-plk @.litvIx.rl.
(s.91
31,1
21,0
11.1
,1,8
102
15
10,2
I
I
665
10
12J6
I
i
n-
VALUES FOR C+’ERATINC CNARACCERISTIC
“..,
dclcc!iw la AQL’. <10
.
,,
❑
.
.
I@
.
m
.
.
P.”CC”T
m w
m
D
x
6i9
378
W
312
171
234
201
186
151
I
I
I
7s2
522
us
631
391
366
303
166
249
21s
SAMPLING
AOL’. > IO)
5AMFILING’ PLANS
u pmctlmbld
FGR slNcLE
.“ ~dc6cd . . .l.selr
cuRws
for sample size code letter:
- OPERATINC CNARACIERISTIC
ICsme.l., d-Lie .sd _.ltipl. .qli.c
X-D — Tables
1JWLIT% OF SUBW7TED LOTS (P, i. win,.,
CNART D
TABLE
I
I
x
M
m
419
U2
1!1]
339
X )1
221
W
PUNS
imtco,ca
x
776
712
033
707
612
611
554
206
a
432
w
655
ml
577
521
w
4?4
399
353
1
M.lllpl.
. ..!
ti.’lt
kc.pt.ut
U..
2s
tin.
*in*.
I**V
1.!1.. 1- +k~
(w altmmt
.0 tbi* ..+.
*ta.c
.0.91
..1..
Cdc
m Fndtt*d
..wllq
Fk@iOn
..mke
*,
..bs.w..l
2,s
,,,
U*. cti
.-t
-4
letter
P -.*
n
M
.“
.
(-l
..il.hl..
I.r..
h Iliabl-rd
La..l.
FOR SMW.E
@.lity
0-1;,,
9 10
19
58
J1
?6
Is
.4
61
2s
56
A. R.
k.pt.bl,
n
61
46
36
2s
14
03
-3
45
14
14
A. fl.
Is
Att+.bl.
PLANS
“1.c!;m
““b.-
C)
Is
15
11
14
to
J5
13
12
b,5
14
13
10
—
14
01
0
v
01
34
03
02
12
02
6
1,0
e
“t”
&
23
h
10
03
ti
f
,,,(
,m
h
12
A, R. 4.
6.s
.2
lb
c
M
,,,(
JO*
, n.
8.0.
4
.
—
.
—
!14
<
,2
1
:0
:n
1..
—
—
—
!,5
—
1.5
—
- SMPLING
.2
—
—
v
s
10
v
Accvl.mce
U.
mJb5.
,*,
M
—
,“
—
.8
.i”
M..
..+
c-.
—
TA811 X-O-2
i.w-cdd
i..~clirnl
SIZE
CODE I.EIW.R: D
e
.iti
.H,l.
cm,.
I.ni..
—
I
,P
w
,.,
31,6
41,3
6,2
)6,2
m,6
29,8
1.5
10.0
so
I ,0
19.4
16,B
10.1
2s.0
10
%,6
41.0
%,0
2%0
Z9.o
$19
30.0
13,6
1.{1
12.6
2,19
75.0
14,2
0,130
4.11
0,8U2
Wo
x
5s.1
49,5
Is
2s.4
22.0
17,1
10.7
26,1
48.4
t.tl
$22
n 1.S ]
0,810
0.395
0.0111
1,0
I 9,9
11,1
6,64
6.13
2..91.
0.294
!
10
1,s0
930
k
,h.bl.
.nd wlti,,lr
mqll.”
CNARACTER ISTIC
I
6.$
$1.1
16.S
29.9
20.1
12,9
7.19
4,09
2.73
1
[
1.1s I
4,0
I
,01
64.1
4s1
40,9
,
1
I
!
YJ.1 I
20.6
13,3
0,40
6,29
3.2s
6,5
Ammt,bl,
..,cbed
CURVES
.-
1
.
I
Im
r12.1
667
52,6
4!,8
26, I
27.0
Ill
io
I.,w,Io.)
1=]6$ .
1
I .
116
! 55
I
I
Isa
137
1Ill
w,,
80,2
64,2
5V,2
46.9
110
119
lm
E2.1 I
66.3
54.0
(7.s
36.1
.
t~]120/~1
1.
I 196
I
Isa
I 1ss
I 111
,
)34
94. }
19.2
71.1
51.s
h.”drwl unit.1
1~1
(,;,hl.mrd I“,r.rr, k.)
40
I
I
I
I
o (i, dcfec!. F,
113s
1
I
1~1
1
Ou.m, 1,.,1,
1~1
1.
1
1123
1101
1
SQ.5
?4.s
S9,0
45,0
15,s
10,6
‘2’2,4
1.
I
I
101
71.3
57.1
4].6
32.5
24.2
20. I
13.7
a
Le.,1, (-.1
I
I
I
2SS
m
I’m
167
144
122
116
92.7
192
232
217
I 264
I
I
I ,4,
I
I
I
2ss
1
lsO/~]2W]~
349
313
I
1
2s6
m13Rs
121
m
261
246
219
379
344
110
2a2
1s6
Z2s
250
471
43s
1414
I
,
LSO ]
1
40?
3ss
‘L16 I .121
I
I
2* I
I
I
2X
16
I 73
1S’2
,wl~l
PIANS
2691
213
16s
887
I 51
lJ1
123
I
I
144
11s
96,7
lx]
SAMPLING
A13L’, >101
1%6
l~[,m
E
PIANS
CURVES, FOR SINGLE
I-
SAMPLING
., p,.., ic,bl.)
FOR SINGL[
,, .16,+
CHARACTERISTIC
M19
1
I
kc.p.bl,
,51,,
71.3
so.
51.4
39,3
20.2
19.5
11,4
I 0.5
6.33
10
IS
&,Ii,,
VALUES FWl CfERATINC
1! 11111
d. fcctl..l
6.5
1,11
, G. F.r,.s
4.0
0.U77
I
1.0
IC.,.,,
- CPIRATINC
X-E — T~bles for sample ~ize code [etter:
,A’J LtTV W StWITTEli
LOTS (P, i. r.~,m ,4?1?
<1!.. h AW.S.< ID: h d. f..,. r.r km.++ -1,.
“.., ,Ia... “ ,-... -, ,-.,4,.
Lb.!,,, ,,...,. ,,lJ_,., b —,
,.q..,l,..
CHART [
TAB1[
X-[-l- TABULAIID
*,O
r,
111(
twbro,,
,mwo
,!,, !’,,,,,,.,
,?#rr\l !!!’,”,,
TABLE
I
I
I
I
vA. lla -
ci -
U“ .ti
n
.
p
—
‘3,s
—
—
1.s
—
15
13
10
G
,bta
u-
14
13
1$
6,5
10
Is
14
01
12
11
? 03
>
0
●
lb
01
1 23
M
9
)1
01
I
Rl Acfh
4.0
*
,*
“t-
b
,
Z
1$
67
46
3
2
1
0
●
1
I
14
R. AS5k
10
26
37
4
5
=
9
19
S8
1s
3
6
.4
1
5 61
4 15
S6
k
x
k“!,
FM
8
x
@
x
14 14 15 la
9 12 II
6 II
6
36
05
11 It
S9
10
10 11
II
10
49
21
04
II
31
09
11 11 14 N
J
s
Jo
16
04
89
31
78
a
x
kink.)
SIZE
65
x
10
T
~
19 n13
l? m
Is 11
II
10
J*
06
13 15
6
1! 11
I
17 1$
13 II
~
am
a 21 25
4
17
al (1 u
7736
17
Im
x
53 37s
1=
~
6a 19 5354
m
nn
n s 11n 496165 47 61
12
6
37
16
2?59
3s 11
IS
s?
11
66 60 49
?f 7636
19 lb
12 6
36 S353 %
a
6663
x
7773
bb td64
3331 Id 40 (9 55 $3s
24 II
19 11 14 19
m
~
W
f30
a
.&
b
n, Ac * AC R. tin
~
11 a 27s
10
A.
130
14 10 11 11
3 10
37 343s
32 19 s
11 13
12 1
8 1*
14 a
16 s~
‘u 373A
1111 m i5 a 827
M II
11
1
4 10 6
11
1 !8 19 n
la II
13 14 Is 10 l! 21
10 7 11 9
~
E
fft AC fk ACk
lm
CODC LEfTfR:
w AC 5196C n, A,
(UmI
SAMPLE
n, AC n$ AC n. At
=
C9dll,
PUNS
10
Is
4m.#1.
SAMPLING
6.6
1 03
(i
+
“m
u“
,P
—
4.0
.
2
—
D
a
R
M
6
.
—
.
J“
—
x
—
—
!
v
—
v
—
—
—
—
f
M
—
I ,0
—
,
—
16
1
13
—
●1”
I*I”
:-.
TABLEX-E-2-
!.
1
3
—
3J
18
15
11
9
6
—
16
—
13
—
w
.lrl
M.
c-
—
I
Q
+
1.0
5,0
!0.0
23.0
I
4,0
1.0
6,2
3s,8
ZJ9
~,6
8,70
481
2?,2
In
5,44
1,81
2,69
21,6
1.41
75.0
+1.cli.el
2,21
v=..,
10
v!$,,.,Tv
,,!:
901
10
42.1
w.!
,,..”,
~,rm,
&f,c,l..
2.20
63.2
1.0
)s,0
6.93
11.5
Qb.liq !,.,4.
10
6,3
4,0
Ac..p.bl,
52.2
1
x
mo
65.5
hi”hmmd i.,pmird
15
65.2
1
40.4
52.9
52,6
41,4
2?.8
19.9
’273
83.1
!4.5
15,.9
11.1
ma
(i” *I,.,.
,5
s
P
8.91
25,5
31,3
42,0
11.5
26.6
19.6
E
o.M
1
10
21.1
8,12
6,23
4.12
65
,..P,,,”,
pm be.d,r,l ..,,,
k
p,
5.2.3
5.3.3
43.1
101
‘
@
114
B4,6
12,2
x
97,2
71.o
B7.O
76.1
22.9
6$1
65,0
24,0
52.1
M.4
30,s
43,1
B
34.2
WE
23.9
)
43,2
.nh,
SAMPLING
> IO)
3s, 1
21.2
23,5
17.5
hd,d
1~123
F
PLANS
A@’,
CURVES FOR SINGLE
,- —,
(.,m”.l In, m,;.n)
12,7
E
5,51
(W
2,1.9
4,0
()”,l ;,, L,,.1,
CtLARACTIRISTIC
C..,,,r ,.. ”,. ,Aw.,
SAMPLING
s. prm,ic.b!~)
FLWI SINGL[
. . CI.=lt
k+ $uI: , < 10; 1. &l,,,,
.,,hed
CURVES
.*
32.2
23.7
19.4
13,5
481
1.41
41,5
+
%
1,70
0,141
2,5
A.c.,r,hl.
2M
!S 6
x
h
“ . . . . . . .. AC,w.,,
0,327
O.z%
O.Owl
0,65
34,R
21.6
14,0
16,6
1,14
lU
9.7s
128
“.,,
CHARACTERISTIC
3Mdad? .nd m.hiple .mpll,”
VALUES FOR &’[RATING
4.33
6.S
[(k...
- OPERATING
X-F— Tabies jor s~mple size code letter:
WU\WrTF.t, !,,, rz l,,
CHART F
- lABULATID
0. 1s9
pli.
2s
TABLE X-F-1
13,9
0.2%
OS5
9s.0
0,052?
w. 0
5.10
065
v.
E
I
II
I
lT,cchl m mm
mrmto TOOOK
,Cclr, ,..,,.0,
TABLE
I
x
127
Iw
108
81,0
73.3
6! .1
51,3
4&2
37,6
40
PLANS
Ixjfi
~
1s3
Ill
124
Im
91.1
79,5
M.4
b2,2
S!,l
~
I 72
151
141
122
Im
93,1
01.2
14,5
62.9
I
I
u.
Eullallm
aD:
:--
F
45
,.
19.0
23,7
10.2
)3:4
11,5
5,56
7.9t
11,4
3.49
5,42
1.67
9.13
43.t
x
30.1
33,0
10
22.s
28.1
15.8
18,4
23.6
11,6
14,0
19,0
2.5
6,94
8.94
11,4
0.6!
5,0
1.0
4.0
6.5
19.7
21,I
37.1
34.1
29.0
)0.0
11.9
22.3
8.1!
4.24
a.o
15.$
5,19
2.14
50.0
8,27
3.0)
0.2?7
0S95
15,0
15,1
13.1
mu
8,S0
9.s6
1.61
4,38
1.60
l,a
10
1.12
O,lf.a
%,0
6.5
0.471
0,0114
-,0
4.0
12,2
14.8
1,20
9.36
0,65
2,5
73,7
0,41
5,2{
2.11
4.33
3,20
I .M
1.1!
0, 4s4
I .s
O,!w
0,129
0.16.2
CuRv[5
1.16
6.5
,,0
,\
31.4
14,2
m.9
16,0
26,3
19.1
)6,6
12.3
1Is
7.92
a.%
5.45
50.0
x,
41.0
,0
41.1
36,8
2%0
YZ9
2s,3
24.0
10,6
14,6
12,4
9,26
10
22.2
17.7
13.2
9,05
8.11
4.21
S40
!.68
1,57
3.44
z.%
I
o (i. Akl.
6,5
I.,mn;..)
I 2s 4.0I
(nm.1
CURV[S
..i#.
x
S3.O
,$
.S0
4s.1
54.4
[xl
.
71.3
@2.B
3.S6
47,6
19.6
12.6
17,0
?4,0
19.1
SAMPLING
48.1 .
40,7
PLANS
x
7V.5
fa6
62,9
54,6
45,8
18,2
1;.2
28,9
U.(
25
22.I
77.4
95.6
~
I 07
94.5
no
22.4
67,7
61.9
S8,4
50.6
46,5
39,3
,0
58,1
49,1
42,7
30.9
31.1
,,
1~1
PLANS
k. AOLb > 10)
40,6
13,3
13,8
26,9
21.9
19.3
14.9
.“;1.1
27,1
21.4
17,0
14,7
11.0
PI h“.kd
,5
FOR SINGLE
lx]
G
SAMPLING
Pmc,l..2W
Foff SINIW
&ire
m,,$.d ,..1.,,1,,,
:
C~RAc~RISTIC
Acr.p#.hl. IJn.li, y L...l.
0,0314
14,4
.qi;~
in mm.., d.1.ril.? (“r .l!)l .,. t In 1. .i.ki.
W, b..,kd
..,-,....
.,!. *.W !+.,., L,.,,. ,, U..., b, . . . ,e,,”.
..d .Ultipl,
CNARACT[R15TIC
~ERATING
,’,.,.
0.40
VALUES foR
M.rti.cl
25
- TABULAT[D
..,.,
1.r A.M.
1075 (,,
(c.-..
- oPIRATING
X-G — Toh[es /or sample size code letter:
UUALITY OF s1WWn611
CNART c
p (i” I.m..l
,5
0.40
P.
I I
TABL[ X-C-1
wacmr or ton
CIPICTI.. m w
,Cclrl, o,,.,
TABLE
1
:
0,J15
1.92
3.33
0,103
0210
0.574
%.0
500
75,0
100
Lo
so
I
12.6
1,3
8,00
0,40
9.14
1.56
4,50
so
5,82
5, m
I.M
2,73
$20
107
O,ml
1
O.oml
1
99.0
P.
I10.25110
E
1-
II
2,3
15.8
12.1
10.J
4,0
18.7
14,6
I 2,9
1,29
10.0
1.69
5.10
3,5J
2,)8
I .66
5.31
1,46
2,22
l.td
140
1
“..,
6,5
24.2
19,9
17,2
1,.5
81.3
0,51
6,41
5.36
1,69
,,-.,
~
”,”...”
. I
10
31.7
.
2?,0
24.1
21.0
17,2
138
112
9.1?
1,3&
1X1
1.
,W,lt.,h
m. 2
24,7
22,4
10.8
1$.2
12,0
9.54
5 2t
6,01
16.5
1
,,”,.
,m.p.,,.
1
13.2
1,5
9.21
0.40
,,,..,,,.
,-.
w.l;tr
12,6
9,49
5.W
1
26.2
63
40
21.0
18.5
ml
155
13,4
I
I...,
,.I.._
,. ,,,., !. p ,..6.4
~
12.0
%,2
215
..”..
I
10
?40
m,9
26.0
I ,.,
CURVES FOR SINCII
,..@,,,..,
i.$vctiwl
b.-,
h.mirtd ..it,
H
~
40,3
33,$
20.8
,-
IS
4$6
~
50.9
an
40.3
PUNS
35.6
2a9
.,--
SAMPLING
(., 4UL’, > 10)
5AAIP11NLI PUN5
code letter:
. . w.ctlc. bl.)
l,..c Is (, IR+I..-I In,w.li.nl
2,5
16,8
10.3
I
4)w.1197[.e.,1, (.urn.l
1
size
in W.ct,wf
. . .l.ulr
CHARACTfRISTIC
1.78
4,61
A..ep.bl,
..4..-,.,
~
361
31.6
29.1
25.2
21.2
11.s
14,5
12,9
10,1
10
Ac..ptahl,
(w AOL(. tlti
m.l,,, t,” b,,a.,,
LOT2 (p, i. r.rrcr.t d$f.
ctlwe
VALUES FOR OPfRATING
“.,,
Ml~Ell
Sample
131RVE5 FOR SINGLE
/or
. ..+z.U .= ..t.b,d
CtMRACTER15TIC
X-H —Ta&les
{Cw.ts b double .d ❑),ipl.
- CHRATING
- lABUIATEO
125
1
H
I)tlA1.l TYoFsln
CHARI
P (i. IWC..J d.1.r,ivrl
O.JM
11.5
1
TABLE X%l
AC.CP,,, ”! F.!
,C,r.,., o, I.rns
,.,,.,C*,I! ,I>,w
TABLE
,/
25
6).1
53!
9.5
49..
1
~
6A,1
60.5
s.t
I
I
I
B
*ltivl*
rba!c
zi.~.
T,F= d
.mtAiq
#-
.
065
,,,0
0,6s
1.0
FCR SWLE
61
ti.lior
do
46
16
2s
14
01
.1
45
14
34
6
9
1
s.
1
2
I
.
6
10
14 I*
10 t]
x
12 12
‘A 10
v
6
8
6
10
Is
~
la
14 14
12 11
II
Q
38
0s
12 12
59
10
L..el - ltimh,c.rd io.rminl
65
s
7
4
21
o~
II
17
09
6
12
1
13
19 n
!1
15 II
13 10
10
Is
39
06
H
At
7
n
6
?2
to
x
2s.%
11
11 11
15 12
12
9
6
1? 16
13 II
10
18
19 n
It
M
J2
23 27-
a
21
7
1)
~
17
31
SJ9
22 I*
17 13
12
29
2! 26n
11 II
19
38
11
25
IQ
14
16
22
AC m
He Ac lb
Is
2s
x
20 JJ23
1,
11
!6 18
10
13 14
AC n,
x
13 15
It
n,
,0
CODE LEflER:
m AC R, 4.
x
I.opctb.)
SIZE
1 II
18
b
n
16
06
09
37
18
he
6,5
5
4
7
1 s
5
k
4,0
II* kc n? he
1,5
0..!11, 1#.d. (-$1
Accrp.tk
25
*S
2
91
040
1$
IJ
23
... s lb”
24
II
65
J
It
32
83
03
2
34
01
Is
12
01
02
J
02
J9
x
*
IOlla
23
n. k
1.$
01
K
L?.
u.* u..
12
k
1,0
.
G
1%
u..
Ac II? AC nl AC n,
x
26
.
.
m
O,M
Am.@l.
- SAMPLING PLANS
.2
01
At
on
X-H-2
.2
v
v
x
6A
v
Ach
‘s 0.23““
Jo
1“1..
, C.qJa
d 1.
r-.
II
TABLf
A
“$’
A
A
Ac
!~
n,
I
1
91
78
65
$2
29
16
u
M
J2
w
:;?
c.”.
0
w
I
1.3Q1
2.W
0,0341
0.132
0,359
0.233
1.7?
2,84
3,b2
W.o
15,0
S2.0
23.0
10,0
5.6
I ,0
I ,0
0,25
1.5
10.1
8.01
5,59
25
120
9.48
816
4,51
6.39
4,s1
40
15.6
12.7
x
10,9
1S,8
14,1
11,1
“ c-..
.
x
2.16
18,3
0.!32
7.W
8,33
9,69
6.&5
1,27
-,
,.-.
,.*,,.,
on
.-,.!...,
Lo
,.b...
,.,..,,.
iwul!..l
am
5,93
~!
,..bd
4.0
16.4
13.1
11,6
9,28
4,39
6.39
3.34
493
3,94
2.10
Accembl. Ou.llw Lt. ds(,k$,t. d
x
2.23
3,21
3,31
4,05
I
,,,
9.s9
1.!5
5,82
4,93
~
“,,.
m,o
16.4
14.7
!2. !
1~]
4.38
6,,
21.8
18.0
16.2
I 3.5
10,8
8,55
6,79
537
~
2S2
‘31,2
19.3
16.3
13.3
10,6
0.18
7.71
5,%
En;,,)
,,,
S~PLINC
r=. hm.kd
3,63
P II” 6.(..1.
,,2
5.27
2,10
j
3,11
I.%
1.71
I ,03
,.,
2.16
1,20
O,E&s
Im
0.%5
I
2.5
5.16
3.74
2.82
1.73
0,.%5
0,260
0.186
0.444
,,0
I..nm, i.m)
CURVES FOR SINGLE
1s
‘N.5
26,0
24,2
21,3
0,01?6
~,m,
j
I,m.1
]
Vr h..dwd .. It. 10I 40 L’. >10)
q.t,k,
12,6
10
,!.,,,,.,,”
13,2
1s,5
1,,.el.
0,,510,85
w.litr
“CHARACTERISTIC
SAMPLING’ PIANS
. . p“.tlc. U.)
FOR SINGLE
.S .l.tcly
10,5
?6.6
‘r,2
21,4
18,6
20.3
18,6
15,8
13,2
11,0
9,,6
11,9
722
,0
9.8’?
1>1
CURVfS
m ..t.hed
dtlrc!l.c f., AUL’. ( 10: i. d. fici.
4...,*.
0..,,,, L“.,. ,MJL’., 1. .-.,,.
k.,w.l,i.
16,0
13,3
109
0.93
1.93
6.17
65
“..,,,.-,,,
6,5
m,5
11.3
15,7
10,8
13,3
9.X
11,9
7.26
9,14
6.26
8.6]
S,VI
1.W
S,m
6,M
1,99.
2,22
1. ?1
5.01
?.28
&kti.. )
4,0 ]~1
3,22
4.04
7.66
2.5 I
,.0.! nr.
. ..pliq
CNARACTER1511C
1., dmM. -d ..lliple
VALIJES FOR CPIRATING
1.13
1.04
3,21
5.79
I
p (i. ptrc.,
1.s
- TABUIATEO
3.10
I
(C.!...
- OPERATING
X-] — Tab/es )or sample size code le!ter:
UU4LtTY OF SUBW’TF.D L07S 1P, 1. F.=..t
CNART J
2.16
1.32
1.03
0,530
1,0
6,52
I
4.78
3,33
O.ml
0.U6
0. la7
0.0116
99.0
9s.0
0,65
0,15
I
TAB1.f X-J-1
h
I
Accwll.n,,.,
pg;:~rmm
TABLE
10
m,s
24,3
22,2
19.0
15,6
13,0
10,8
9.61
1.62
1~1
PIANS
27.2
23,3
19.9
17.1
15.6
12.9
3.2
15
~
3.4
30.9
lx]
31.B
27.4
2..2
11.1
10,3
15,3
12.9
11.6
9.33
,,
~
42.9
37.8
35.7
31,2
27,1
73,4
2L,3
18,6
1s.7
,,
I
51
I
I
I
s.
dltun
1,5
1,0
0,65
0,1s
I
0.06
6.12
I .0
S,m
16.2
!0.3
x
2,5
A..xp.bl. Cu.lhr L-,1.
12,6
10.s
Wbw.d
l..patiad
x
11,6
11,s
10.s
4.0
12,3
$94
S.sl
2.40
3,6s
S.o
106
6,20
!2,1s
S.11
8,66
~.34.
4.3s
I .U
10.0
10.4
1.7s
9.62
S.91
7,42
~,,,
4,W
3.!6
III
5,0
0,53
6,14
6,94
4,5s
6,w
S,62
6,5
1.s.3
1s.6
14.2
12,2
10.1
8.36
6,92
4,8a
6,1S
3,82
LS5
2,94
,“1,, (m Arjr,
4,94
S41
3,76
2,81
X1’”jx
I..ca,lm)
e.rk
2,14
1,36
0.220
0,5s5
7s.0
20.0
3..32
I
h.+
3.11
1ss2
0,7W
W,o
2.s2
I .10
2.02
0,s52
0.423
0.w63
92.0
1.32
3.16
1.As
2.5
2,09
I
Im
I .5
0,6S9
I
0.626
1.0
0,65
0.3W
I
(-.1
+,..
*,
ACCC~Ml
Im (h,
.
.
,.
w
w
.
.
.
!,
e
s
rc”crm or tars
Uruxrn m “c
> 10)
,0,,
K
I
x
29.4
17.s
16.1
11,9
!1,7
9.79
8,24
7.60
5.!6
6,S
I
10
14,s
21.4
19,1
I 1.4
14,9
12.7
10.9
9.95
8.ss
XJ’”
CURVES FOR 51NGtf MAIpLINC PLANS
,“QLW b —,
< 10; In dtk,,
CIWRACTERISTIC
A,ce.,.bl,Odor b.,ls
FOR WIRATING
“ e...., ., Ac,.p.b, V.,,”, b“,,
lW w.’,
0,266
0,40
...
0.119
I
,..
[,. 1. PnW,t *l?cti.e
0,0610
0.10
,Im.
VALU[5
k.,
LtllS
*.9 ,,,
*1FWllw rrm
O,ma
t
I
t.
TABLE x- K-I - TABWAFID
,..
Tables for sample size code letter:
- OPERATING CHARACISRISTIC
CURIIIS FOR SINGII SAMPLING PIANS
{time, Im dmbl. ud dupl, .npllq - ■uch6 ., clod, . . PMIC064.)
X-K—
W.o
v.
la
m
.
m
.
.*
m
,W
m
Ill
o
~8;c~;;rm~;
ACCIPTCD
1,.,
Ct14RT K
TABLE
mm
x
21.s
24.3
32.s
23,0
11.3
14.9
13.0
11.9
10,1
1
I
I
0
1%
53
.,,
,,*
do:
+..
\
I
O,*
0,3M
0,461
O.rw
In
i.w
1.37
J,?l
0,60
0 .Oig
0.144
0.347
Osw
1.15
l.%
1.30
0.10
22.0
Jao
5,0
10.0
S.o
1,0
-
u
,“,
I
I
1
0.62
3.66
3.1s
0.65
I ,0
so’s
3.34
l.sd
4,m
t.s
x
$32
I.w
1.43
1,s
I.JS,I II, LA,
8s,1
11,2
13,3
1s.3
10,9
1,s
2,s
4,0
11,4
11,7
10.1
~
9,72
mm
km
1.22
6.42
6W
#.u
S,a
10.1
D.w
7,70
10,8
“x
6.5
12.4
x
14,1
12,5
6.20
9,32
10,9
$W
0,70
4.64
732
9.34
m,12
7,4s
6.29
7.61
I
6S1
6.33
7,9S
4.44
6,Jl
5,17
4,22
I
$.40
5.22
[M
1X1”
PUNS
,..D
4.63
$.1$
6,11
4.6J
3.76
4.Q
I
8.0
5,21
J.u
3,s
xl
4.31
I
1
3.s1
3.W
8.29
25
;.n
I
I
SWLINC
1,63
1.33
I ,1s
x
IS.FtiI
,,,
k+ AOL,, > 10)
,,,,
3.66
I
J
(-i
,,>
FOR SINGLE
F? h6A
CURVIS
,.,
PIANS
3,71
2,64
1.I!4
1,36
1,$6
*,*
Ct14RAClER ISTIC
3.!8
1ss
Ill
I
I
m,,
-IU
SAWLING
M ●olch6 ■, d,odr ., ,14A4,)
FCM SINGLE
4rfml..
k AOL’* ~ I@ h &l-u
O_m,,l...b
(firm%)1. d
-
u=Plhs
6.11
o.nt
0.666
Omz
0.331
I
l,li
0.412
1.0
A=NdI.
0,683
I
1
1. ~n’r.:
CWRATINC
----
S.4W
0,118
pm bBD4d .1,.)
0,40
FIX
n,..,.
,.
-d -A@,
CURWS
for sampIe size code htter: L
CK4RACT’ERISTIC
,.,
IGw=c (m &U.
GW.UATING
X-L —Tables
WMLI1? G? 61FM21ED W72 b.
,.*
L
- TABUT.AIID VAIIIS
0,075
50.0
Clwu
*.*
.&f-,
0.173
I
401Ru”
0.s
0.024
pmNl
I
?50
,(l.
“
TAELE X-L-1
1*
W.o
1,.1
Q.*].
P.
,
n
.
m
.
w
cc
m
.
“
#m
=Ulcn
~m~o~q
TABLE
~
m
~
$
u-l.
5)!
w.!
.+,
..+.
0,10
k,p,m,
w
0,15
—
pttimd
0.8
O,ul
—
●I
tbl. to+
.1[..
.96 ml-ii-
$,0Ir 019cdl 1,110?9)
01.. call let,,, 1s4-MA .Ccwl.b-
1,0
..fabt*
,.,
~
10 II
m OW.11.t.le.
l“*pcclld
,,5
16 14 Is
1#.clo M66w,d
9
~
16
14
(9
17
9
1
10 12 12 It
15
1 II 9 12 II
8
II
10
13
II
5
b
6
16
0s
12 12
S*
10
13
10
49
27
04
II
31
89
o
38
16
04
99
31
18
n- AC R,
2,5
x
AC R,
4,0
7
11
6
17
12
24
la
4,0
x
6s
n 7226 32 U
[1
x
1?
J9
“$
MO
m
ml
23 21 29 II
u
22
m
19
!50
50
—
250
—
Zw
13 19
A
A
U
..
lW
16
A
A<
II*
I.,;
Cnn.
r N
29
lzizl
II
‘?2
n,
6.5
I:hb#
—
Es
m 22s
k
6,2
19 11
RI
17 16 22
II
to
18
19 n
11 9
18
4,
x
a
11
17 II
15 12
8
6
v
12
17
6
16 w
10
13 14 Is
Il.
L
10
14
10
1
J
0
IS
6
12
k
~R:
s
6
s
4
7
s
6
x
lb A.
,.$
COO[
,1
3
2
t
.
6
2
s
U? . ..ikbl.
1CCC$4M Odl,
062
d.. cd. l.,!.. lo. .l.ki .c.rwac. .4 +ctkm ..+..
0,10
u., ok”+. 0.!+,.” d., ohm, (w *R*-:
Il+c,k
,,, (b.,
61
6
23
350
s
46
IS
11
Iol
3b
26
II
2s
‘2s2
4
14
I
D)
OJ
.3
45
14
34
R, A.
1.0
SIZE
Im.wctbd
FOR SAMPLE
A. m AC
01
-b..-!
-,
..+.
)4
B]
23
IC R.
065
WI
1-
AU+4.-*
u.?
x
‘1
lb
02
M
12
02
11
—
k
040
150
N
d
.4ttc*
0-
c R!
—
—
0,22
D)
K
#tlel
me
u..
—
, n,
,. 11,
—
0,15
—
,
—
.
n
—
x
—
0,10
—
Im
v
—
v
—
01
—
k
—
0,052
—
PLANS
Accqll,blc 000111, Le.el, (m-l
- SAMPLING
02
w
It
v
—
c
—
.
—
t,. ,*.,
X- L-2
02
—
m
Is
—
m
u.. . . .. P..6i..I
S@k
—
oitt
., Ml,
I.#i..
c.”.
—
IABL[
m
UI
2.11
0.75
1.46
0.063
0,40
Z 61
““,
0,6
3,!9
Au +...
2.46
I .0
I ,51
lm
0.951
I
. . . . A.
1,?6
@.lltr
x
- P.,-
S.08
4.17
3.76
3,07
2,43
1.E9
1,40
L..cI.
1.0
I
(.-,1
x
6.40
S,32
4.89
4.11
3,39
2,74
2.23
1,96
. ..i”h.
1.51
1,5
CURVES
. . . .n”.titi
(,i~ht,md Imp.c,im)
1,5
5,52
4.s
4.13
3,43
2.75
2,17
1.72
1.49
1,11
x
I.,pr,im)
CjlARACTERSTIC
0,921
.-1. w
Ac..pI.blc
I ,0
4,16
3.34
2,94
2,36
2.12
5.0
1.27
1,69
0.731
I .62
10.0
0.835
1,26
0.440
1ml
1.17
2s.0
0.531
0.349
0.220
30,0
I ,34
0.D213
7S.0
I ,m
0.8,0
0,414
0,534
0,%1
026!
0.%
SAMPLING
. *
-.
2,3
1,14
6.17
,3.64
4,63
4.02
3,31
2.74
2,44
I .94
x
FOR SINGLE
I
M
I
x
8.08
6,?s
6.39
5.s2
4,ti
1.69
3.21
‘3.94
2.31
2.3
SAMPLING
PLANS
code letter:
SINGLE
size
-c ma!chtd *8 c1o.cI, II pmcdc.hld
CURVES FIX
/or sample
Acc.phbl, Omll,, L...l,
O.zm
0,1$4
0.169
0,0115
50.0
O.MO
0.260
0,111
0.325
0.40
w. b.r.imi ..it,l
0,25
0.0161
%.0
m i. W-1,
I
0,13s
defrctl.t
0.15
CHARACTERISTIC
(Cwre. lot LW4* mad.. IIIPIC c.apllw
- CPERATINC
X-M — Tables
- TABULATED VALUES FOR WERATING
0.C412
0.ml!9
p (i. m-m
0.040
TABLE X-M-1
9,0
P.
I I
o r Wn
70 *C
CNART M
ACcc,,l n (,.,
rrmccnl
Urulco
TABLE
1,0
9.7 I
n.41
1.26
6.90
5,93
5,G5
4,34
3,%
3,38
x
PLANS
x
10.9
9,m
B.%
1.92
6,m
5,91
5.16
4.73
3.W
4,0
LJJ
=::
Acc,pl,8c*
-
Ac
It.
.*dcl.
..btc~.l
01.,1. ,-puq
PI.,
Amq., mc, m ~d,,,d
u..
..wI.
$.+.
.W
—
.,”.
(0, ,It.rml
,, ,Ai, ..@
—
0.10
0.1$
1., 1“ “,,
la -Mt6
C,-
O,*O
45
2
.d mire! i.. -+..
.-,.
Acctpb!e
.d I. Iwd-
0,?5
1*11,. 0)
oc.vl.nc.
1.1!” lx -Mcb UCq..cr
2
—
min. C06. I.tt..
.1...4
●ta.,
MA
lb..
—
23
WI
—
3s
3
1
430
—
24
3
I
Ua
-G7
14
01
X0
01
03
●
02
20
M,lQc,les ..ACI.
-
6-
03
240
N
r
I 2 34
0
’33
2
P
..,,.!
u“
ti
1
.
L
COa
.,*,
ma
L-*
S~U
0,40
-
. .. II.M..
Ix.ds (Iitkcnd
~
10 13
*
,,0
12 12
9 10
7
6
8
6
11
1
39
06
1?
iwcd.d
2.5
19 21 n
~
11
12
8
a
1?
~
2s
‘m :1
11
Is la
la
17 !0
Is
1
16 10
10
13 14
x
6
10
14
4,0
75 32 21
x
31 M
‘;;
YA2
au
II
3m
210
#m
m
4m
am
315
23 n
A
A
A
.iu
am
13
19 ?5
II
7
27
16
2’3
n
.Q#<
c-.
hi..
=27
29
22
11
12
29
26
14 11
Iv 21
‘t:
4,0
Ik Ac
4,0
22 ?2Z5
17 !6
$3 11
10
18
19 3334
*
Is 18
R. Ac lb A.
It
2.5
n, AC
13 10 Is
10
0
s
83 IS
9
II
W k
x
M
14 16
12 II
II
9
3
0
12 12
s
10
n. Ac
IS
COOE lfIIER:
1.s
14 14
11 9
10 6
4
21
04
9 11
J)
09
R* A.
x
1
S8
. . . ..ll.ble.
Odty
0,6$.
67
46
16
s
1
25
7
38
26
14
04
8
37
10
lb
tt
61
2s
4, S6
‘“
Is
03
.3
{,5
14
3
slZE
lnumd I.spxdd
15ck
D:65
n. AC n, Ac 11, At
0,%
Ito
—
Um
u“
I
k
0.1s
Fm
AcctPstdc lJudity L-d,
f’lANs
z
—
v
v
—
I
—
:n
—
:n
—
Iii
0,10
O,w
—
D,ou
—
z—
:
—
—
- SAMPLING
—
x-M-2
*
Ua
230
m
u.. . . . . Fx.d.,
U.e w.,
A-
Mdlbb
Limb!?
Zh#l,
,1,,
.+.
k..
., I..
TABLf
I
0,10
,.,
I
0.15
- TABUIATID
rip.
0
0.2.5
VALU[S
F..,
,
0,349
0.507
o.2m
0.345
0,105
0.192
0,0211
0,0513
9.30
1s.0
0,165
,.,
,
,
. ..4 .m!,lpl. .qll.,
k,.p.,1,
,
.
. . cb,.1,
0.15
0040
x
1.33
0,9’2!
1,0
“.. ! m ..,-.
0.40
2,0!
b *“
0,65
%.!h,
],m
,.b,, h.-, -,.-,,.,,,.,..
k<w.ble
2,62
2.35
2.33
2,10
0,949
D 599
30
1.35
1.85
I .34
1,26
0.778
0461
I 0,0
1.53
1.96
I .02
I.IJ
1.48
0,134
0.55s
1.19
0.93I
0,7%
0,59I
0,65
0784
I
0,234
0,06(
0620
0523
0537
0,40
0,S29
““,
I
L..d.
x
i.,m,lod
“ --..,-,,..
(tl”h!,..d
10
,. ,& ,,4.
4,03
3,48
3.09
Z.m
2.13
1,72
1,40
1.27
0.934
3,57
I
I.0
CURVES FM
+..,-.
2.09
2,63
2,16
1.1.7
I 37
Im
0,939
,,,
1,s
+,%
3.3P
3.s4
3,M
2.35
Z.m
1,73
1,54
1.22
SINGLE
x
N
,,,
I .W
x
.5.0?
4.28
4,03
3.43
2.93
2.6
Z,w
1.95
,,,
’35
6,12
5,34
8.95
4.55
3.13
1.10
2.73
2.49
2,01
X125
PLANS
I 1.5 I
SAMPLING
>101
,,,
PLANS
w hwndmdml,, (w NV.
,,0
SAMPLING
code her:
. . WIc.bh)
l..~c!io.)
0.701
1, x
(-d
CHARACTERISTIC
O,ln
02s
$ize
FCR SINGLE
O.d,!, L“.1. (, W., ,. .-,
0,277
I .W
,,,
A.ce~.b!e QtI.litT L...!,
FC# WERAIING
“ .-.,
m o
1,?6
cuRvES
~amp!e
.m ..tcLd
/or
W.o
0.211
0.111
0.l?d72
o.ozw
O,CWO1
0 Illo>
0.164
Tables
CNARACTFRISTIC
—
Lrl12 (,, h. pace., .!, If., iv< (.” 412V, c 10, In hk,.
P(in wrctM ~fcr,iw m i. dtfcci. c.r bm.dmdnniid
0,025
, .
IC.rm k bad.
- CWRATINC
,)1° !Ll r> (W Sllli$tl Irl:ll
N
90.0
[
. ..
TABLE X- N-1
.
,.
m
m
.
.
.
m
m
m
ma
CWR1
X-N
930
l’.
m
AccCrl 20 #P.,
0,
IT”cc”,
CBrtmto IV 01
T.4BLE
2.31
x
6,01
6,c5
5,44
4.99
4.23
3.14
1.2s
2.90
I
I
I
I
I
N
59
0
m
O,lm
o,48b
0.593
0,230
0.10
O,o.wl
O,w
0.113
O,m
0,3J4
0.576
O.ws
$00
7S0
50,0
%,0
10.0
5,0
I .0
0,331
0,210
0.0444
0,066
O,ciwl
0.0132
95,0
0.15
I .03
O.ml
0.365
0.493
0.334
0,216
0.138
0.102
0.0s45
“ . -----
k.qdi.
O.z
1,26
0,969
0.035
0.639
0,4s9
0,317
0.218
0.!11
0.1212
0.15
O.ul
1,64
1.31
1.16
0.922
0.lQ
owl
0,.?ld
0.3n
0.223
0.25
A=ep,
cHARACIERISTIC
0,40
Z.m
I ,M
1.47
1.21
0.939
0.745
0,542
0.498
0,363
x
P
O.&s
2.18
I ,W
I ,62
1.x
1,m
0.252
0.679
O.W
MM
x
I
x
2.52
2.12
I .93
1,0
2.83
243
2.22
1,$0
t .W
1.33
la
I .30
I .0s
0,%1
tl$z
XI
I ,m
I
FOR SINGLE
0,.378
0.771
0.596
0.6
CuRV[s
x
3.18
2,74
2.52
2.1?
I ,m
I .53
I.m
1,16
0.93s
IQIX
SAMPLING
dc(me, w. bmdmd❑-II, f= AOV. > 10)
0..1!,, L.-Io ,Aw.1 b. —1 I.w!!...
*le (J””Ii,, 1,..,1, (“m,,l l..ph”)
VALUES FOR CPERATING
sm., %-..
w, hndwd nit.)
0,10
- TABULAIED
m drkt.
0,0186
,J.kli..
OW.5
0,00126
Pli. mm.:
0015
9?0
P.
TABLE X-P-1
X-P — Tables jor s~mple size code letler:
k,AQL’,
<I&1“
uIM
LITV
OF
SU1lMITTW
LUI’S
(v inw~,,&l,dl”
TABLE
4.29
].m?
15
3.78
3s2
3.34
1.0?
x
2,11
3.12
2.34
1.39
2.33
2.72
1.06
2.03
1.s1
1.5
1,71
I
I .S4
129
PLANS
.,
61
m
w
,.—..
“
k.?!.).
,.,
0.314
0.m
0,124
0,215
0.111
0,221
0065
0,0224
0.255s
0.111
0,5s4
0,2!0
0.?44
0.01 s
1s,0
so
‘2s0
10.0
5,0
1.0
ht.,
,,, ,.l...
@... I.&.
0,!5
0,024
0,672
0.10
0,6?3
0,%
0.s54
.*
0,2s
I .s
l..,,.%-
Amdle
0,641
0.742”
0.s%
0,(54
0.294
0.214
0.409
0.23s
0.m3
0,1?4
0,2W
0.10
0,2s
O,al
I
I
Aec.p.bk
0.140
0s822
0.M2S
0.0+29
0,10s
0.10
0,0249
0,2W41
0.076V
I
o.aW
w, 0
0,0119
0,290
m.., -.
pm hddwnll.
0.0204
Cctdtc,,
0.(%5
0,20410
*I-I.,
O,MO
O.atwn
rrc,.t
I
,,0
,.,
1.,
M
,m m,tckb ., do,+
,,,
,,,
l..!.
,W.1
tl..*,
OdlI,
x
. . ..t...l..t.
lllnhe..d
o~
1.29
”.h
k~, i..)
~
1.61
s!-,
I .s5
1.)s
1,02
1.20
1.?7
1,M
0,864
0,6W
0.262
0494
0342
0.40
0,022
I
0,694
0.241
0,43s
0.316
0,281
x
1.M
Le..l.
I
0.942
0.77S
0.614
0.176
o.3n
0,318
0,232
0,25
Ch.lity Lvv.lm(s-.1
❑l,.
,.,
,,
,,,
PIANS
Q
0,65
lm
1.56
1.42
1,22
1.01
0.634
0.692
0.61S
0.489
x
I
,,,
x
2.04
1,7s
1.61
1.39
1.17
0.979
0s24
o.7&2
0.5W
0,62
SAMPLING
k AOU. > 10)
CURVES FOR SINGLE
.-!4
i.ovlim)
k .--1
CHARACTERISTIC
0“1,,
,,,
,,,
SAMPLING
,. pmc,ldl.)
CURVES FDR SINGLE
,,s
1,1
IW&W, ,~ ml(lpl. ,-pll,,
CtMRAC&TIC
- TABULATED VALUES FIXE WRATING
W.o
F.(i”
0,010
(G-,
- OPERATING
WJALITYOF SU12WTHl L(T7S {p, 1. ~mrm! belccilm 1- AWL’. <10: i. ‘60recmperh+
95,0
p.
CNART Q
X-Q — T~bIe~ for stimpie jize code letter:
0,,,,, .,, ,,. ,., ,., ,., ., .,
TABLE X-O-1
,
,.
m
❑
.
m
m
m
.
.
:m
?19CUI 0, m
txmcrw mot
Ucr?rrn,,.,
TABLE
I
2.14
I.%
1.14
!,49
1.27
I,w
0.99s
own
x
1,0
2.U
PIANS
,.,
I
x
1,75
2.42
2,25
2.02
1,13
1.49
1.30
1.19
I .01
1,0
)
0!
u
m:
Acm$4nu -
=
=
d,.
pmlud
u“ Olwl, ,0+*,
=
-
R.\tctlm -t
=
1.013
—
u IU, *+*
.bc.
aim.
21
Sms
1,060 0,06s
3
1
Ism
z
3
1
Ins
—
14
03
l
1
*
6
1
s
9
1
s
3
4, 2
s
0,1s
61
46
36
1s
1
0s
●
6s
16
14
R. k
0,10
R* A.
0,10
4s
3s
24
03
ma
●
34
0s
23
01
1
t
02
It
o
I
AC R, k.
963
II
~
lmll-
lb.
CR#
0.0%
1
P
L%
u“
P. R*
Oo1o
,
.
—
.
I
R,
B.033
z—
6s0
0.010
R
(an.
—
—
,
I,O1O
—
(m-d
0,a
x
IqlmkOl
o.n
x
0,60
x
06s
10 13 11 16 Is 18 19 21 n
11
1? 16
x
‘nZo
1.0
333s
3939
x
393s
31 33
3s39
29 19=’
330s
1s90
tsn
nm
96s
Ala
1 16
—
Isa
Em
—
31$
,4
Id..
c-v
—
1$
11 13 19
It
10 6
13 II
I
28 3639
14 11 16
1
19 29
lb
1,0
19 31 a
R, k
11 n 3395
10 11 12 la 11 11 In 30 nn
6
1s 12
11
4
11
16 18
9
1
M 16
R, h
~
1 II *
15 14
6
10
39
06
Is
10
13 14
1 11 9 12 II
Ioi
6
69
u
6
11 12
9
s
1
S6
11
9s
12 11
5-
10
A.
0,63
13 10
36
6
6!
04
II
31
c~
AC n.
~
Q
11 8
I
04
9P
37
70
s
4
7
s
6
no kafh
0,s0
SIZE COLM IfllIR,
Il. AC R? h
0,1s
b-lo
PIANS FOR SAWLf
Acc9pt66* 09dll,
!
n.
Aarpl-c.
n
U90
—
s
-
x
—
- SAMPLING
*
m
—
Ma
SW
Ino
—
1%9.
14”
k
udll#*
ckJ&4*
#**
Tp d
Mqsiq
—
TABL2 X-O-2
0.1
0.4
O,LUO
0,124
0,196
0,264
0.315
0,4m
0,2+.5
0,mm
0,11s
O.lW
0.231
0.132
O.o1o
50.0
25,0
!0.0
so
1.0
0,(651
0.mM
O,mm
0,040!
0.04w
no
0,0170
P5.o
0,0218
0.s
0.26
n,.,,
1
VALU[S
w..,
n.,
O,dc,s
O.W
Owl
N1.kd...
0,1$
0.S26
0.334
0.10
0,311
0,W
O,ms
0.2E4
0,211
0,127
0.181
0,)31
0,150
O.c+.m
0.C%?2
o.mn
0,0412
0,10
ba”,
Am,P,bl,
x
0,,
0
I
ti.,ls
tltu. u
0.5
I .32
O,W
0.770
0,651
0s22
0.411
0,35I
0.3W
I
CURVES
0.279
x
,,,
,,,
.**.
0,40
1.14
0.972
O.ml
0.761
0,62.7
0.s21
0.132
O.lw
0.W5
x
,,,
,,,
w
I .27
1.W
t .01
0,070
0.65
Is]
1.21
1,24
1.W
O,w
0.933
0,644
0+.Z2
0,511
x
0,612
I
,,,
PLANS
0.7U
0,51s
0,4d2
0,311
0,40
SAMPLING
AOL’. > 10)
FOR SINGLE
~, h“ndmd.“1,. I-
Oi,h!e,ed i“,pcc, im)
I
.hl....41u!l
.”l..m..-. l.m.
Lm,l,
0,2$
0,8m
0.172
0,650
0,540
0,133
0.342
0.?72
o.a5
0.175
x
(m,m,l 1,. F.c, I.”)
CNARACTER ISTIC
Q.I.llt,
0..9m
0,627
0s09
0,004
O,m
0,290
0.731
O,lw
0,145
0,15
A...pblnln G.11,,
FOR ‘OPERATING
“ ,...,
*,,
R
SAMPLING” PIANS
., pm<,i,,hld
SINGLE
1“ r.rrcnl d,(<,,l.F I., AI)U. ~ 10, 1“ dek,.
,“ k.p,h,,
I+,
m,L“.,.
I Am.,
l., “ml
,..pd-,
0.6
CURVES FIX
m,l,lpl, ,,mpliq .* n.ctrhed,, .!..,1,
CMRACmRISTIC
lCUr.eS1., dnublcd
- W’ERATING
X.R — Tables /or sample, size code letter:
Cl’ $1IIVIT7K11 L073 IV.
- lABUIATED
(Q1’11.ICY
W,o
o,m74]
L
X- R-1
0.1
CNART R
p (1. Fmrrd dtfec,l.e or defect. pr h..dmd ❑i,.]
0.025
lABII
0,1
W.o
P.
,,
.
.
.
!0
w
a
00
.
1“0
19.9CIM1 or Wn
Ltwcw.
m 9L
,.,,,,7,,,!
( ,-,
TABLE
I
x
1.?2
1.51
1.41
t.n
I ,m
0,934
0,.912
0.145
O.dw
0,ti
,,,
I
?j
1X1
.
.*
65
..*
=
=
=
Ac
Re
a
Accept.mcemnber
Rejection IIwnber
AcceptMC pitted
m IM*
●9+*
dm.
TABL.E X-S—Tables
3
3
3
0
1
1
2
3KI0
40CQ
4S03
m
Multiple
I
3
2
0
2400
2
2
2
m
2
0.025
x
#
w
1
0
‘znCa
Uca
1
A.
3130
cmu-
S
bnl
16UI
Ml.
Shgla
TTPO of
m+ir#
p! u
Aceqmblo @llw
(Mrmd inspalkd
/or sample size code letter:
,
Mlvsm-loss
6.
6
6.1 Inten&d Use. [email protected] p~
end tables for insperzionby
attrti~tended
to ke used in the aquj.sicim of Eefensennteria.1.
Word)Listi.nq.
6.2 subjectTerm (I@?y
Aceptable CuaMty Level (A(Z)
merage ~goirq
Qdality (~)
Defect
Dsfective
Lat or Batch
ProcessAversge
S.an@e
Salrplilq
Plan
unit
of Prcduct
fran P-ous
Issue. Vertkal
changes
6.3
this revisionto icientify
&mqes with
the extm.siveneasof the rhanges.
lines
eesperx
67
O=
to
the
asterisks
pwlous
ars
not
ussd
issuedue to
in
r
mL-SID-105S
c#aJJDINc FmTzNAL
PreparingActivity:
Army-AR
Custodians:
Army-m
Navy - OS
Air
For@
Review
23
Activities:
(ProjectC?3C-0085)
A=&’ -m, E& T’LAV, ER
Navy - As, m, NC, m, s,
SH, ‘ID,YD
DLA - S.S,GS, SS
OSD-IP, SO
User Activities:
Army-m
D?&l - ES,
SS
68
h
● wnLiauiIU
cnmeau
and ~tioca
lft$~Ucm~s:
-.rnttial
-tietu
Jkd.
m
rixid.
l%is
In bkak
==idv*.
~bk=.
form
may
●ffo!t
to
d
OU? cIarIdmfiAiOa
for im~m-nta.
km doti.d.
fotdm! dmu
rho limo
6. be u #pacirIc u pmibko ●bout pu’ticub
Ian.
Ehwinbtak
UUMIIOUI.
or -u
6uIyrmMrkJn0t
UkmOdwdgeamcltdfbumitodto
i=omcukihlc.
0! miliwy
imd-ti,
uus
on
PIvpoad
mtitnaapmirm~xofti
you-wlixllodva
kobtyoakmo.
dON
done
DoD
tioa
b.
+*
-hick
wordim
ctunc_
docunma:.
IWT
fo? UIC in
to wuride
STWV.@.
in~wion.
woutd tidkc
7nfEttedout.
~
m
the
an
bckn6
b)
OF THE ARMY
●IJSNES
●n,v
Fom
(m
COUUnmIbm”wcckuduldm
. ..
-uAt.Tv
LbEI form
am iariiad
required
dtkb
lfbtock
111111
OWkCtAL
Qr.xide9
docunxnfJ
Imm
such S8 wrdiw
kblyau
ah
III.
better,
aadudu8
tvmd
prc.blern
A
(P*
OEPAFITLIENl
daummb
AU W-
ATs
IJSE UOa
BUSINESS
.PIR67
PO-AGE
REPLY
CLASS
PERMIT
NO.
mom
WILL BE P41O BV THE DEPARTMENT
O
C,
OF THE ARMY
Us. AmrYNu.swmr PISEMcH, D5ElJ3~
FmmxREFmKa??rER
m:
SKAR-arlc-s
PICATIWNY~,
NJ
‘“ I.iEd
MAIL
wASHINGTON
07806-5000
m
HANDARDIZATION
DOCUMENT
❑
NUMaE
2. 00 CUUENT
MEL-~105E
MAME
OF
DOCUMENT IMPROVEMENT
(seeIiutnulimu . R+
side)
TITLE
SAMPUNG~ANDTABLES
c.umutnttm
PROPOSAL
FCIRINSP~ICNBY~
OnuNIuTIOw
4.
TYPE
•1
OP
0RCANIZ4TION
Clw,
am-.
ZIP
C*)
❑
m,.
u4N”E=Arr””E”
❑
●ROeLllU
.
H)
VENDOR
l’-J
aoonz”waamg’
(M+
OTHER
(Stirj,,
AREM
r—
W.au,
d
Wmdlv
k—wc9aikW
.
-/nmlOndo
t.
~.,
,? EMAFIES
NAME
h8A1L1NG
fift
OF
SUBMITTER
AODnE=
FORM
4 fihf!
it.-w
lSfm.1,
Hal.
City,
Ml)
SUti,
-
ZIP
Oc.,,mlti
Cdl
8.
-
OothmU
.“ ..,,-----
s.
.- .-.
.-
——.—. ——-
WOBK
TELEPHONE
Co&)
-
OATE
06
NUMBER
O,ptl.w..l
SUBMISSION
fYYMMDD)
(l”elud#
.4-
NOTICE OF
CANCELLATION
NOT MEASUREMENT
SENSITIVE
MIL-STD-105E
NOTICE 2
26 March 2001
SUPERSEDING
NOTICE 1
27 February 1995
MILITARY STANDARD
SAMPLING PROCEDURES AND TABLES
FOR INSPECTION BY ATTRIBUTES
MIL-STD-105E, dated 10 May 1989, is hereby canceled without replacement. Current DOD
PREFERRED METHODS FOR ACCEPTANCE OF PRODUCTS are described in MIL-STD1916, dated 1 April 1996, and should be considered for future acquisitions.
Custodians:
Army – AR
Navy – OS
Air Force – 10
Preparing Activity:
Army – AR
(Project QCIC-0164)
ASMC N/A
AREA QCIC
DISTRIBUTION STATEMENT A: approved for public release; distribution is unlimited.
Descargar