B29.22 - Drop Forged Rivetless Chains, Sprocket Teeth Drive Chain/Drive Dogs

This Standard includes information for Drop Forged Rivetless Chains, Sprocket Teeth Drive Chain/Drive Dogs; Strand Length Tolerance; Dimensions for Chain Links; Chain Assembly; Sprocket Tooth Forms-A and B; Drive; and Drive Dogs-ANSI 160 and ISO 32A1 Drive Chains. There are also tables for Regular, X-Type, and Modified X-Type Drop Forged Rivetless Chains; Sprockets Maximum Eccentricity and Face Runout at Root Diameter; and Sprocket Factors.

B94.35 - Drill Drivers, Split-Sleeve, Collet Type

B56.11.1 - Double Race or Bi-Level Swivel and Rigid Industrial Casters

This standard establishes dimensional standards for double race or bi-level swivel and rigid industrial casters in order to provide for the overall interchangeability of a complete caster.

Y14.43 - Dimensioning and Tolerancing Principles for Gages and Fixtures

This Standard presents the design practices for dimensioning and tolerancing of gages and fixtures used for the verification of maximum material condition (MMC) size envelopes and virtual condition boundaries generated by geometric tolerances controlled at maximum material condition. Examples of gages used to inspect workpieces using regardless of feature size (RFS) are shown in Appendix C. These practices focus on the design of receiver -type gages, which collect attribute data when used for the verification of workpieces dimensioned and toleranced in accordance with ASME Y14.5M-1994. For gaging and fixturing principles and practices, see paras. 2 through 6.

Y14.5M - 1994 Dimensioning and Tolerancing

This standard establishes uniform practices for stating and interpreting dimensioning, tolerancing, and related requirements for use on engineering drawings and in related documents. For a mathematical explanation of many of the principles in this standard, see ASME Y14.5.1m. Practices unique to architectural and civil engineering, land, welding symbology are not included. Engineers Edge provides training per the requirements defined within this standard.

B89.7.2 - Dimensional Measurement Planning

The objective of this Standard is to insure correctness and acceptability of dimensional measurements. This Standard specifies requirements for preparation and approval of dimensional measurement plans and for the use of approved plans in making dimensional measurements. This Standard considers that a dimensional measurement method is acceptable if its associated measurement uncertainty per the reference in Section 3 (ANSI/NCSL Standard for Expressing Uncertainty) meets business needs, e.g., cost of measurements, consequences of pass and fail errors, liability, specific policies, and customer requirements. In assessing the acceptability of an uncertainty, management should take into account the importance and difficulty of accurately quantifying uncertainty. This Standard is intended for use by process and quality control engineers (dimensional measurement planners) in planning manufacturing-related dimensional measurements.

PTC 19.22 - Digital Systems Techniques

The purpose of this Supplement is to define the scope and application of digital system techniques for implementing data acquisition, calculations, and results presentation for use with ASME Performance Test Codes. This Supplement incorporates instrumentation practices covered by other Instruments and Apparatus Supplements (PTC 19 Series). The Supplement is based on the use of digital systems covering a wide range of capability from simple data gathering equipment to multipurpose on line or off line data processing digital systems. The justification for using digital techniques may be derived from a variety of reasons either chosen by or forced on the user by the unique circumstances surrounding the user. Among the benefits to be derived from applying these techniques are: (a) savings in testing costs by reduction in man power, length of test, amount of testing equipment, and computational time; (b) improvement in accuracy and reliability of results; (c) standardized methods and procedures; (d) simplified documentation for test; (e) providing uniform implementation of ASME Performance Test Code measurements; (f) providing current pretest reasonability check of data and instrumentation; (g) determining steady state conditions for test initiation and potential and potential impact on test results; visibility of data during the test (h) improved visibility of data during the test period.

Y14.41 - Digital Product Definition Data Practices

This Standard establishes requirements and reference documents applicable to the preparation and revision of digital product definition data, hereafter referred to as data sets. Specifically, this standards provides guidance for the application of dimensiona data within 3D CAD systems.

Y14.42 - Digital Approval Systems

This Standard provides the minimum requirements for the development of a digital approval system for engineering documentation.

B89.1.10M - Dial Indicators (for Linear Measurement)

B89.1.10M - Dial Indicators (for Linear Measurement)