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Standard

Spark Arrester Test Carbon

2013-03-26
CURRENT
J997_201303
This SAE Standard establishes physical properties required of SAE Coarse Test Carbon and SAE Fine Test Carbon and establishes test methods to ensure that these requirements are met.
Standard

Spark Arrester Test Carbon

1990-09-01
HISTORICAL
J997_199009
This SAE Standard establishes physical properties required of SAE Coarse Test Carbon and SAE Fine Test Carbon and establishes test methods to ensure that these requirements are met.
Standard

Spark Arrester Test Carbon

1988-06-01
HISTORICAL
J997_198806
This SAE Standard establishes physical properties required of SAE Coarse Test Carbon and SAE Fine Test Carbon and establishes test methods to ensure that these requirements are met.
Standard

Spark Arrester Test Carbon

1988-10-01
HISTORICAL
J997_198810
This SAE Standard establishes physical properties required of SAE Coarse Test Carbon and SAE Fine Test Carbon and establishes test methods to ensure that these requirements are met.
Standard

Two-Stroke-Cycle Gasoline Engine Lubricants Performance and Service Classification

2003-07-31
CURRENT
J2116_200307
This SAE Standard was prepared by Technical Committee 1, Engine Lubrication, of SAE Fuels and Lubricants Council. The intent is to improve communications among engine manufacturers, engine users, and lubricant marketers in describing lubricant performance characteristics. The key objective is to ensure that a correct lubricant is used in each two-stroke-cycle engine.
Standard

High Temperature Materials for Exhaust Manifolds

1999-08-01
HISTORICAL
J2515_199908
A subcommittee within SAE ISTC Division 35 has written this report to provide automotive engineers and designers a basic understanding of the design considerations and high temperature material availability for exhaust manifold use. It is hoped that it will constitute a concise reference of the important characteristics of selected cast and wrought ferrous materials available for this application, as well as methods employed for manufacturing. The different types of manifolds used in current engine designs are discussed, along with their range of applicability. Finally, a general description of mechanical, chemical, and thermophysical properties of commonly-used alloys is provided, along with discussions on the importance of such properties.
Standard

High Temperature Materials for Exhaust Manifolds

2017-12-20
CURRENT
J2515_201712
A subcommittee within SAE ISTC Division 35 has written this report to provide automotive engineers and designers a basic understanding of the design considerations and high temperature material availability for exhaust manifold use. It is hoped that it will constitute a concise reference of the important characteristics of selected cast and wrought ferrous materials available for this application, as well as methods employed for manufacturing. The different types of manifolds used in current engine designs are discussed, along with their range of applicability. Finally, a general description of mechanical, chemical, and thermophysical properties of commonly-used alloys is provided, along with discussions on the importance of such properties.
Book

The Global Market for Automotive Turbochargers: 2015 edition

2015-10-01
Since the last edition of this report in 2013, the demand on automakers has been relentless in terms of improving fuel economy and reducing emissions, thus driving increased sales of forced induction systems. The use of pressure charging techniques has therefore expanded significantly. Recent years have seen the ascendancy of the turbocharger and its use by almost every major global manufacturer.
Book

Vehicle Manufacturers in the Race for Environmental Success

2008-12-01
This ground-breaking new report from ABOUT Automotive assesses to what extent the automotive industry has started to clean up its act, and reduce its environmental impact. The report tackles two clear problems; the damage we are causing to the planet (climate change), and the fact that we, as a society, are dependent on a finite resource (peak oil). The report also assesses the industry’s response to the answer to these two problems – a reduction in energy use and a switch to sustainable renewable energy sources. Central to this new research is the exclusive “Green ranking.” The 12 leading vehicle manufacturers are individually assessed, and ranked according to a variety of criteria – using examples of best practice as benchmarks. The vehicle manufacturers covered are: • BMW • Daimler • Fiat • Ford • GM • Honda • Hyundai • Nissan • PSA • Renault • Toyota • Volkswagen The activities, attitudes and strategies of the 12 vehicle manufacturers are also charted.
Standard

Spark Arrester Test Procedure for Large Size Engines

2013-03-26
CURRENT
J342_201303
This SAE Recommended Practice establishes equipment and procedures for the evaluation of the effectiveness and other performance characteristics of spark arresters or turbochargers used on the exhaust system of large engines normally used in a railroad locomotive, stationary power plant, and other similar applications. This document does not cover applications requiring flame arresting, exhaust gas cooling, or isolation from explosive gases. Two test methods are presented: a laboratory test using ambient air (cold test) and an engine test using exhaust gases (hot test). The hot test is preferred. Arresters tested by the provisions of this document can be expected to perform as tested when tilted no more than 45 degrees from their normal position. Test results from a spark arrester or turbocharger evaluated by the hot test can be applied to different engines of similar design, provided the data shows it to be effective in the applicable flow ranges.
Standard

Multiposition Small Engine Exhaust System Fire Ignition Suppression

1995-06-01
HISTORICAL
J335_199506
This SAE Recommended Practice establishes equipment and test procedures for determining the performance of spark arrester exhaust systems of multiposition engines used in hand-held portable applications. It is not applicable to spark arresters used in vehicles or stationary equipment. This document provides a method of testing to evaluate the fire ignition potential of exhaust systems of small multiposition portable engines.
Standard

Multiposition Small Engine Exhaust System Fire Ignition Suppression

2012-10-23
CURRENT
J335_201210
This SAE Recommended Practice establishes equipment and test procedures for determining the performance of spark arrester exhaust systems of multiposition small engines (<19 kW) used in portable applications, including hand-held, hand-guided, and backpack mounted devices. It is not applicable to spark arresters used in vehicles or stationary equipment.
Standard

Multiposition Small Engine Exhaust System Fire Ignition Suppression

1976-09-01
HISTORICAL
J335B_197609
This SAE Recommended Practice establishes equipment and test procedures for determining the performance of spark arrester exhaust systems of multiposition small engines (<19 kW) used in portable applications, including hand-held, hand-guided, and backpack mounted devices. It is not applicable to spark arresters used in vehicles or stationary equipment.
Standard

Multiposition Small Engine Exhaust System Fire Ignition Suppression

1988-05-01
HISTORICAL
J335_198805
This SAE Recommended Practice establishes equipment and test procedures for determining the performance of spark arrester exhaust systems of multiposition small engines (<19 kW) used in portable applications, including hand-held, hand-guided, and backpack mounted devices. It is not applicable to spark arresters used in vehicles or stationary equipment.
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