JIS K 6380 is the Japanese Industrial Standard for Rubber Packing Materials
: Standards are periodically reviewed and updated. Ensure that you have the most current version of a standard, as outdated versions may contain requirements that have been superseded.
Design engineers need the exact physical property limitations outlined in the standard to simulate seal behavior in CAD and FEA software. How to Legally Access the JIS K 6380 PDF
By accessing and understanding the Jis K 6380 PDF, professionals in the plastics industry can ensure compliance with regulations, improve product quality, and enhance their competitiveness in the global market. jis k 6380 pdf
60 Shore A hardness, 5.0 MPa tensile strength, 300% elongation.
Represents the maximum allowable percentage of permanent deformation after the material is subjected to prolonged compression at its designated heat-resistance testing temperature. ⚙️ Referenced Verification Standards
To successfully source or manufacture materials using a JIS K 6380 PDF guide, you must learn how to decode these digits. 1. Type (First Letter): Oil Resistance JIS K 6380 is the Japanese Industrial Standard
The JIS K 6380 standard specifies the following requirements for rubber gloves:
JIS K 6380 is the primary Japanese Industrial Standard for used across diverse industries, from automotive to chemical processing.
The standard itself does not create new testing procedures but relies on a comprehensive suite of other JIS standards. For the 1999 version, these include: How to Legally Access the JIS K 6380
Indicates the minimum allowable tensile strength in Megapascals (MPa), validated via JIS K 6251 .
: Industrial rubber packing sheets, flat gaskets, and custom-cut vulcanized rubber seals.
If you are sourcing materials or preparing compliance documentation, tell me:
: Use a standardized cutter (die) to punch out the required shape from a flat rubber sheet. For tensile tests, this is usually a No. 3 or No. 5 dumb-bell shape.
The standard is a critical industrial specification in Japan, establishing the foundational requirements for rubber packing materials used across various engineering sectors. As materials engineering advances, understanding the classification, physical properties, and testing methods outlined in this standard is crucial for engineers, manufacturers, and procurement specialists.