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AGMA 90FTM2 - An Industrial Approach for Load Capacity Calculation of Worm Gears (Verifying and Design)
October 1, 1990 - AGMA

The method proposed in this paper is based on an analytical rating method which has been developed some years ago by the author (see AGMA paper 88FTM6). The calculation is based on the determination of the maximum of pressure between the mating teeth which is made by using a specific criteria for...

CRSI DESIGN - CRSI Design Handbook + CD-ROM
January 1, 2008 - CRSI

The CRSI Design Handbook has been the reference book for cast-in-place reinforced concrete design since 1952. The 10th edition provides the necessary information needed for common reinforced concrete structural members such as columns, beams, footings, pile caps, retaining walls, and...

MPIF DESIGN MANUAL - Powder Metallurgy Design Manual
January 1, 1998 - MPIF
A description is not available for this item.
AIA DESIGN MANUAL - DESIGN MANUAL ON AIRCRAFT ELECTRICAL INSTALLATIONS
AIA/NAS
A description is not available for this item.
BS 721-1 - Specification for Worm gearing - Part 1: Imperial units
April 25, 1963 - BSI

Cylindrical involute helicoid worms with a normal pressure angle of 20° in a range of axial modules from 0.052 in to 1 in. Design, formulae for calculating worm and wormwheel dimensions; four gear classes, with tolerances for pitch, profile and worm thread...

AGMA 14FTM11 - Mathematical Modeling for the Design of Spiroid, Helical, Spiral Bevel and Worm Gears
October 1, 2014 - AGMA

This paper will present a novel work for spiroid and worm gears that mathematically calculates the gear tooth profile in terms of the geometry of the machining tool (hob) and the machining setup. Because of similarity, the work was also expanded to spiral bevel gear. We...

AGMA 02FTM2 - Development and Application of Computer-Aided Design and Tooth Contact Analysis of Spiral-Type Gears with Cylindrical Worms
October 1, 2002 - AGMA

Development and Application of Computer-Aided Design and Tooth Contact Analysis of Spiral-Type Gears with Cylindrical Worm By: V.I. Goldfarb & E.S. Trubachov This paper presents the method of step-by-step computer-aided design of spiroid-type gears, which involves...

FORD WK900 - Hoseclamps - Worm Drive
November 1, 2005 - FORD

This specification covers the dimensions, material and performance of worm drive hoseclamps. NOTE: The torques specified are test requirements and are not recommended as tightening torques for assembly purposes.

AGMA 6135 - Design, Rating and Application of Industrial Globoidal Wormgearing (Metric Edition)
January 1, 2002 - AGMA

This standard provides guidelines for the design, rating and application of globoidal wormgearing mounted at a 90 degree angle. Specific definitions for globoidal wormgearing terms are presented, along with formulas for determining the geometric sizes of the major features for the...

AGMA 6035 - Design, Rating and Application of Industrial Globoidal Wormgearing
January 1, 2002 - AGMA

This standard provides guidelines for the design, rating and application of globoidal wormgearing mounted at a 90 degree angle. Specific definitions for globoidal wormgearing terms are presented, along with formulas for determining the geometric sizes of the major features for the...

BS 3027 - Dimensions of Worm Gear Units
April 10, 1968 - BSI

Principal external dimensions of worm gear units of 4 in, 6 in, 8 in, 10 in, 12 in, 14 in, 17 in and 20 in centre distances, employing worm gearing complying with BS 721.

FORD WK903 - HOSECLAMPS – WORM DRIVE (INTEGRAL SPRING)
May 23, 2013 - FORD

This specification covers the dimensions, material and performance of worm drive hoseclamps. NOTE: The torques specified are test requirements and are not recommended tightening torques for assembly purposes.

JIS B 1723 - Dimensions of cylindrical worm gears
September 22, 2014 - JSA

This Japanese Industrial Standard specifies the general-use cylindrical worm gears with an axial module of 1 mm to 25 mm and a centre distance of 40 mm to 500 mm used for power transmission.

AGMA 6022 - Design Manual for Cylindrical Wormgearing
December 16, 1993 - AGMA

Covers the design of general industrial coarse-pitch cylindrical worms and throated gears mounted with axes at a 90 degree angle and having axial pitches of 3/16 inch and larger.

BS 1498 - Gear Hobbing Machines for Turbines and Similar Drives
May 6, 1954 - BSI

Design and required accuracy limits of machines, with or without creep gear, for production of high grade gears for turbines and similar drives. Grade A for heavy loads and high speeds, grade B for normal loads and speeds. Accuracy limits also for: feed screw , main indexing...

Gears and Gear Drives
January 1, 2012 - WILEY

Understanding how gears are formed and how they interact or mesh with each other is essential when designing equipment that uses gears or gear trains. The way in which gear teeth are formed and how they mesh is determined by their geometry and kinematics, which is the...

NAS1923 - CLAMP, HOSE, BAND, TANGENTIAL WORM, LIGHT WEIGHT
March 31, 2016 - AIA/NAS

This specification establishes the requirements for a light weight, tangential worm type, band clamp.

AGMA 10FTM17 - Self-Locking Gears: Design and Potential Applications
October 1, 2010 - AGMA

In most of the gear drives, when the driving torque is suddenly reduced as a result of power off, torsional vibration, power outage or any mechanical failure at the transmission input side, then gears will be rotating either in the same direction driven by the system inertia, or in...

ASD-STAN PREN 4234 - Aerospace series - Clamps, worm drive - Dimensions, masses
October 1, 2018 - ASD-STAN

This European standard specifies the characteristics of worm drive clamps designed for use with suitable rubber hoses to form joints in fluid system pipelines for aerospace applications.

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