Customer Support: 131 242

  • Shopping Cart
    There are no items in your cart
We noticed you’re not on the correct regional site. Switch to our AMERICAS site for the best experience.
Dismiss alert

BS 6002-1:1993

Superseded

Superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

View Superseded by

Sampling procedures for inspection by variables Specification for single sampling plans indexed by acceptable quality level (AQL) for lot-by-lot inspection

Available format(s)

Hardcopy , PDF

Superseded date

28-02-2007

Language(s)

English

Published date

15-11-1993

$669.38
Including GST where applicable

Committees responsible
National foreword
Specification
Section one. General
1 Scope and field of application
2 References
3 Definitions and symbols
4 Acceptable Quality Level (AQL)
5 Switching rules for normal, tightened and
       reduced inspection
6 Relation to ISO 2859
7 Non-continuous production and operating
       characteristic curves
Section two. Choice of sampling plan
8 Planning
9 Choice between variables and attributes
10 Choice of method
11 Choice of inspection level and AQL
12 Choice of sampling plan
Section three. Operation of a variables sampling plan
13 Preliminary operations
14 Standard procedure for "s" method
15 Standard procedure for "sigma" method
16 Procedure during continuing inspection
17 Normality and outliers
18 Records
19 Operation of switching rules
20 Discontinuation and resumption of inspection
21 Acceptance curves for tightened and reduced
       inspection
22 Switching to "sigma" method
Section four. Tables and diagrams
Tables
I-A Sample size code letters and inspection levels
I-B Sample size code letters and sample sizes for
       normal inspection
II-A Single sampling plans for normal inspection
       (master table): "s" method
II-B Single sampling plans for tightened inspection
       (master table): "s" method
II-C Single sampling plans for reduced inspection
       (master table): "s" method
III-A Single sampling plans for normal inspection
       (master table): "sigma" method
III-B Single sampling plans for tightened inspection
       (master table): "sigma" method
III-C Single sampling plans for reduced inspection
       (master table): "sigma" method
IV-s Values of fs for maximum sample standard
       deviation (MSSD): "s" method
IV-sigma Values of fsigma for maximum process standard
          deviation (MSPD): "sigma" method
V (V-B to V-P) Tables and operating characteristic
                curves for single sampling plans (sample
                size code letters B to P)
VI-A Correspondence between tightened and normal
       inspection plans
VI-B Correspondence between reduced and normal
       inspection plans
Diagrams
A Sample size code letters of standard sampling
       plans for specified qualities at 95 % and 10 %
       probabilities of acceptance
s-D to s-P Acceptance curves for combined double
            specification limits: "s" method
sigma-C to sigma-P Acceptance curves for combined
                    double specification limits: "sigma"
                    method
Annexes
A Procedures for obtaining s and sigma
B Statistical theory
C Sampling plans for "R" method
D Graph paper for the "s" method
Bibliography
Figures
1 Example of the use of an acceptance chart for a
       single specification limit: "s" method
2 Example of the use of an acceptance chart for
       separate double specification limits: "s" method
3 Acceptance curve for sample size code letter F,
       AQL = 1,5 %, MSSD = 2,76: "s" method
4 Example of the use of an acceptance chart for a
       combined double specification limit: "sigma"
       method
5 Normal distribution
6 Standardized normal distribution
7 Fraction nonconforming for constant sigma = 1
       and different values of the mean (mu1, mu2, mu3)
       in relation to a fixed lower specification limit
8 Acceptance chart for lower specification limit
       only, sigma and mu known
9 Acceptance chart for upper specification limit
       only, sigma and mu known
10 Acceptance chart for separate double
       specification limits, sigma and mu known
11 The effect on process fraction nonconforming of a
       change in mu, with sigma held constant
12 The effect on process fraction nonconforming of a
       change in sigma, with mu held constant
13 Contour in (sigma, mu) plane for p = AQL = 10 %
       nonconforming for a combined double specification
       limit
14 Acceptance chart for a combined double
       specification limit: "sigma" method
15 Acceptance chart for complex specification
       limits: "s" method
16 Graphical method for single or separate
       specification limits
17 Acceptance curve for code letter H, n = 25, AQL =
       4%, MAR = 70,7: "R" method
18 Graph paper for the "s" method

Establishes sampling plans and procedures for inspection by variables. Ensures that lots of an acceptance quality have a high probability of acceptance and that the probability of not accepting inferior lots is as high as possible. Coverage includes: definitions and symbols; non continuous production and operating characteristics curves; operation of switching rules; acceptance curves for tightened and reduced inspection. Also gives tables, diagrams and annexes.

Committee
SS/5
DevelopmentNote
Supersedes BS 6002(1979). Also numbered as ISO 3951. (06/2004)
DocumentType
Standard
Pages
120
PublisherName
British Standards Institution
Status
Superseded
SupersededBy
Supersedes

03/102301 DC : DRAFT NOV 2003 BS 6000-1 - GUIDE TO THE SELECTION AND USAGE OF ACCEPTANCE SAMPLING SYSTEMS FOR INSPECTION OF DISCRETE ITEMS IN LOTS - PART 1: GENERAL GUIDE TO ACCEPTANCE SAMPLING
BS 6000-2:2005 Guide to the selection and usage of acceptance sampling systems for inspection of discrete items in lots Guide to sampling by attributes
BS 6002-3:2005 Sampling procedures for inspection by variables Guide to double sampling schemes indexed by acceptance quality limit (AQL) for lot-by-lot inspection
03/102303 DC : DRAFT NOV 2003 BS 6000-3 - GUIDE TO THE SELECTION AND USAGE OF ACCEPTANCE SAMPLING SYSTEMS FOR INSPECTION OF DISCRETE ITEMS IN LOTS - PART 3: GUIDE TO SAMPLING BY VARIABLES
BS 6002-4.1:1994 Sampling procedures for inspection by variables. Specification for sequential sampling plans for percent nonconforming. Known standard deviation
BS 6165:2002 Specification for small disposable fire extinguishers of the aerosol type
BS 8442:2006 Miscellaneous road traffic signs and devices. Requirements and test methods
DEFSTAN 93-111/1(2004) : 2004 FIBRE REINFORCED POLYMER COMPOSITE FOR BALLISTIC PROTECTION PURPOSES
DEFSTAN 05-101(PT2)/1(2005) : 2005 PROOF OF ORDNANCE, MUNITIONS, ARMOUR AND EXPLOSIVES - PART 2: GUIDANCE
DEFSTAN 05-71(PT2)/1(2006) : 2006 ACCEPTANCE SAMPLING PROCEDURES FOR PROOF WITH RESPECT TO RECTANGULAR REFERENCE TARGETS - PART 2: ACCURACY PROOF - SINGLE SAMPLING PLANS FOR INDEPENDENT DISTURBANCES IN AZIMUTH AND ELEVATION
DEFSTAN 05-71(PT1)/2(2006) : 2006 ACCEPTANCE SAMPLING PROCEDURES FOR PROOF WITH RESPECT TO RECTANGULAR REFERENCE TARGETS - PART 1: CONSISTENCY PROOF - SINGLE SAMPLING PLANS FOR INDEPENDENT DISTURBANCES IN AZIMUTH AND ELEVATION
BS 6000-1:2005 Guide to the selection and usage of acceptance sampling systems for inspection of discrete items in lots General guide to acceptance sampling
03/102302 DC : DRAFT NOV 2003 BS 6000-2 - GUIDE TO THE SELECTION AND USAGE OF ACCEPTANCE SAMPLING SYSTEMS FOR INSPECTION OF DISCRETE ITEMS IN LOTS - PART 2: GUIDE TO SAMPLING BY ATTRIBUTES
BS 1202-1:2002 Specification for nails Steel nails
BS 6000:1996 Guide for the selection of an acceptance sampling system, scheme or plan for inspection of discrete items in lots
BS 7459-1:1995 Rotating sprinklers for irrigation equipment Specification for design and operational requirements
BS 873-1:1983 Road traffic signs and internally illuminated bollards Methods of test
03/102300 DC : DRAFT NOV 2003 BS 6002-3 - SAMPLING PROCEDURES FOR INSPECTION BY VARIABLES - PART 3: DOUBLE SAMPLING PLANS INDEXED BY AQL
05/30134584 DC : DRAFT JUN 2005 BS 6002-2 - SAMPLING PROCEDURES FOR INSPECTION BY VARIABLES - PART 2: GENERAL SPECIFICATION FOR SINGLE SAMPLING PLANS INDEXED BY ACCEPTANCE QUALITY LIMIT (AQL) FOR LOT-BY-LOT INSPECTION OF INDEPENDENT QUALITY CHARACTERISTICS
BS 8408:2005 Road traffic signs. Testing and performance of microprismatic retroreflective sheeting materials. Specification
BS 6001-0:1996 Sampling procedures for inspection by attributes Introduction to the BS 6001 attribute sampling system
DEFSTAN 05-61(PT14)/1(1994) : 1994 QUALITY ASSURANCE PROCEDURAL REQUIREMENTS - PART 14: PROOF SCHEDULES FOR CONVENTIONAL WEAPONS, AMMUNITION AND EXPLOSIVE ITEMS OF NEW MANUFACTURE
BS 6000-3:2005 Guide to the selection and usage of acceptance sampling systems for inspection of discrete items in lots Guide to sampling by variables

BS ISO 3534-2:2006 Statistics. Vocabulary and symbols Applied statistics
ISO 3534:1977 Statistics — Vocabulary and symbols
ISO 2854:1976 Statistical interpretation of data — Techniques of estimation and tests relating to means and variances
ISO 2859:1974 Sampling procedures and tables for inspection by attributes
BS 6001-1(1999) : 1999 SAMPLING PROCEDURES FOR INSPECTION BY ATTRIBUTES - PART 1: SAMPLING SCHEMES INDEXED BY ACCEPTANCE QUALITY LIMIT (AQL) FOR LOT-BY-LOT INSPECTION
BS 2846-4:1976 Guide to statistical interpretation of data Techniques of estimation and tests relating to means and variances
BS ISO 3534-1:2006 Statistics. Vocabulary and symbols General statistical terms and terms used in probability
BS ISO 3534-3:2013 Statistics. Vocabulary and symbols Design of experiments
BS 6001-3:1993 Sampling procedures for inspection by attributes Specification for skip-lot procedures
ISO 5725:1986 Precision of test methods Determination of repeatability and reproducibility for a standard test method by inter-laboratory tests

Access your standards online with a subscription

Features

  • Simple online access to standards, technical information and regulations.

  • Critical updates of standards and customisable alerts and notifications.

  • Multi-user online standards collection: secure, flexible and cost effective.