This standard will be an updated version of SAEJ548/1. It is intended to specify the design requirements and dimensions for spark plugs and their cylinder head mounting. This standard will cover automotive, light duty non-automotive and small engine spark plugs. It does not include aircraft and large industrial engine type spark plugs..
This SAE standard applies to any and all Flushing Fluids intended for aftermarket use to clean and decontaminate sections of the refrigerant circuit within a vehicle A/C system. This standard provided testing and acceptance criteria for determining minimum performance and compatibility of Flushing Fluids with A/C system materials and components, which may be intended for use in servicing vehicle A/C systems. This standard will only indicate a Flushing Fluid's minimum performance criteria, and that it is chemically compatible with materials used in the A/C system. It is not the intent of this document to identify requirements for ultraviolet leaks detection dyes, as such dyes must meet the requirements of SAE J 2297. It is not the intention of this document to identify requirements for system additives, as such additives must meet the requirements of SAE J 2670.
This SAE Standard specifies the performance tests and requirements for hydraulic brake hose assemblies used in the underhood hydraulic braking system of a road vehicle. This standard does not apply to brake hose used in jounce applications (wheel mounted brake hose assemblies).
The scope of this recommended practice is to establish definitions and recommended methods for the measurement of lateral run-out and disc thickness variation in the laboratory and vehicle for passenger cars and light duty trucks up to 4546 kg gross vehicle weight. This recommended practice will breakdown the instrumentation (sensors and sizes), test setup, and data processing.
a) Creation of a standard specific to integration of energy storage systems into electrification of buses of all types which comprehends safety, performance, life and cost considerations utilizing worldwide standards as references in order to maximize existing work. The document applies to both purpose built electric buses and retrofit electrified buses. b) Harmonization of these existing standards achieve specific objectives that provide guidance in effective and safe designs of electrificed buses which utilize battery pack systems as the energy storage device. c) Future Considerations
Develop a test methodology to measure the damping performance of a composite or other bar from the frequency response function obtained from the excitation force and the corresponding acceleration level, both measured at the same point.
SAE J3131 defines an automated driving reference architecture that contains functional modules supporting future application interfaces for Levels 3 through 5 (J3016). The architecture will model scenario-driven functional and nonfunctional requirements, automated driving applications, functional decomposition of an automated driving system, and relevant functional domains (i.e., functional groupings). Domains include, but are not limited to, automated driving (i.e., automation replacing the human driver), by-wire and active safety, and those related to automated recovery from faults and system failures (e.g., system bringing the vehicle to a safe state). The architecture will address Tier 1 and Tier 2 functional groupings. The document will include one example instantiation being divides the functionality into two functionality groupings, and will detail the functional and information interface between the groups.
This recommended practice applies to any vehicle manufacturer that chooses to publish vehicle dimensions and specifications that may influence customer purchase decisions. The intent is to define standardized vehicle dimensions that reflect showroom conditions and / or dimensions experienced during purchase conditions and also include published dimensions used in marketing / advertising materials irrespective of communications media that influence purchase decisions This document also provides a method to certify OEM and 3rd party compliance with recommended SAE and ISO measurement practices for vehicle dimensions commonly reported publically for marketing and competitive vehicle analysis
Review existing classification schemes from other industries and existing ideas that were presented at SAE or that may be being proposed or used in other organizations. Determine to use either an existing scheme or create a new classification scheme specific for the automotive industry from the existing or proposed methods or ideas (an integration or merging of the ideas). A Threat Analysis and Risk Assessment Method that would work with the classification scheme or from which we could map into a specific level in the cybersecurity integrity classification scheme a. This will require reviewing existing TARA methods and deciding on one or a tailored version of one Determine how to relate the ACSIL for safety-related threats to the ASIL from ISO 26262
The automotive and ground vehicle industry has identified pallet size and material standardization as a means to enhance the reuse and recycling of pallets and to reduce their contribution to landfill. The objective of this report will be to gather publicly-available information within the automotive and ground vehicle sector concerning the current situation of pallet usage through a survey instrument; composition of pallets commonly used in the automotive and ground vehicle sector, including terminology and definitions; and information resources concerning pallets.
Definition of key characteristics for capacitive energy storage devices, determination and measurement of static and dynamic performance characteristics, and definition of test methods for the determination of these characteristics.
The purpose of this document is to define tests necessary to verify that an SAE J2534-1 interface device meets all the requirements specified in SAE J2534-1: Recommended Practice for Pass-Thru Vehicle Programming. Recent Activity Date Type