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Training / Education

Introduction to Rubber Science and Technology

2019-10-08
Rubber – a loosely cross-linked network of polymer chains that when strained to high levels will forcibly return to at or near it original dimensions. This course is designed to provide the participant with a thorough understanding of rubber’s engineering characteristics. This class will introduce the various sources of rubber, both natural and synthetic. The class will contrast the differences between rubber and plastics; including thermoplastic rubber. Detailed discussions on how to select the correct rubber polymer for the application, highlighting the pros and cons of each major rubber type.
Training / Education

Basics of Silicone Rubber Science and Technology

2019-10-07
Silicone rubber is comprised of inorganic-organic polymers. These materials consist of an inorganic backbone with organic side groups attached to silicon atoms. This family of polymers possesses unmatched versatility giving the formulator and user multiple forms and methods to cross link the polymers into rubber materials having the widest service temperature range of any rubber material. This course is designed to provide the participant with a thorough understanding of silicone’s engineering characteristics.
Training / Education

Design for Additive Manufacturing Towards End-Part Production

2019-06-03
Additive manufacturing (AM), with origins in the 1980s, has only more recently emerged as a manufacturing process of choice for functional part production, adding to the suite of choices a designer has available when designing a part for manufacturing. Like other traditional processes like casting and machining, AM has its set of constraints. An added layer of complexity comes from the fact that there are several different AM processes, and some of the design constraints are process-specific.
Training / Education

Material Selection and Testing for Plastics

2019-05-16
Today's necessity for quickly delivering products to market limits product development time and leaves less room for error and 're-dos.' With so many plastic materials available, it is crucial that those involved in product design understand resin properties and how they affect part design and manufacturability. To help you make the best plastic choices the first time, this seminar provides an overview of polymer chemistry, explains the methods for testing properties of plastics and presents a method of systematic selection that will optimize your plastics material selection process.
Standard

Brake Master Cylinder Plastic Reservoir Assembly for Road Vehicles

1994-06-01
HISTORICAL
J2053_199406
This SAE Recommended Practice specifies the performance test procedures and requirements of a plastic reservoir assembly suitable for use on a hydraulic brake master cylinder (reference SAE J1153). Intended usage is for on-road vehicles using brake fluid conforming to fMVSS-116 (DOT 3), and SAE J1703 specifications. This document includes the cap.cover and diaphragm as integral parts of the reservoir assembly. The fluid level sensor (FLS) is also included as an integral part of the assembly. However, additional FLS standards and/or requirements are applicable and necessary which are not covered in this document. This document is intended to provide a recommended practice and minimum performance requirements of current established designs on those reservoir assemblies generally used by individual manufacturers which have demonstrated satisfactory field performance. This document is applicable to new reservoir assemblies for commercial or aftermarket production.
Standard

Test Method for Determining Cold Cracking of Flexible Plastic Materials

2009-11-09
CURRENT
J323_200911
This SAE Recommended Practice is applicable for determining the cold characteristics of flexible plastic materials, as applicable. It consists of three different methods for determining low-temperature properties of materials depending on type of material and end use. The method used shall be as specified by the contractual parties.
Standard

Test Method for Determining Cold Cracking of Flexible Plastic Materials

2004-01-28
HISTORICAL
J323_200401
This SAE Recommended Practice is applicable for determining the cold characteristics of flexible plastic materials, as applicable. It consists of three different methods for determining low-temperature properties of materials depending on type of material and end use.
Standard

Test Method for Determining Cold Cracking of Flexible Plastic Materials

1998-07-01
HISTORICAL
J323_199807
This SAE Recommended Practice is applicable for determining the cold characteristics of vinyl-coated fabrics and other automotive plastic materials, as applicable. It consists of three different methods for determining low-temperature properties of materials depending on type of material and end use.
Standard

Test Method for Determining Cold Cracking of Flexible Plastic Materials

2016-03-28
WIP
J323
This SAE Recommended Practice is applicable for determining the cold characteristics of flexible plastic materials, as applicable. It consists of three different methods for determining low-temperature properties of materials depending on type of material and end use.
Standard

Test Method for Determining Cold Cracking of Flexible Plastic Materials

1996-01-01
HISTORICAL
J323_199601
This SAE Recommended Practice is applicable for determining the cold characteristics of vinyl-coated fabrics and other automotive plastic materials, as applicable. It consists of three different methods for determining low-temperature properties of materials depending on type of material and end use.
Standard

Snowmobile Stop Lamp

2011-03-12
CURRENT
J278_201103
This document provides test methods and requirements for the stop lamp on snowmobiles.
Book

Scrap Tires

1998-03-20
Scrap Tires: Disposal and Reuse details the historical, technological, and economic issues related to the scrap tire industry, and the manner in which the scrap tire problem is addressed. The ultimate solution will be hastened by progress in the establishment of profitable commercial enterprises and markets to utilize scrap tires for their inherent intrinsic value. Scrap Tires provides advice on how scrap tires can be used for fuels, sealants, rubber mats, playground surfaces, equestrian arenas, wastewater treatment plant composts, golf courses, and more. Written from a business perspective, Scrap Tires focuses on the economics of tire recycling, providing valuable advice to individuals or companies. In addition to an exploration of markets, the book describes how tires are chopped, the machinery used in chopping tires, the grinding process, and the engineering properties of tire chips.
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