Jis H4100 Standard Pdf [upd]

The standard covers profiles with various cross-sections, including . It does not generally apply to solid rods or wires, which are covered by separate standards, but it does regulate solid profiles where the cross-section is uniform.

Official copies of the are protected by copyright. Authorized technical documents must be obtained through legitimate standard organizations to ensure you are working with the most up-to-date revision. Where to Purchase Legitimate Copies

is the Japanese Industrial Standard that specifies the requirements for extruded aluminium and aluminium alloy profiles used in various general engineering, structural, and architectural applications.

: Window frames, curtain walls, roofing structures, and scaffolding. jis h4100 standard pdf

For engineers, manufacturers, and quality assurance professionals, having access to the official, authentic standard is essential. It is important to rely on authorized sources for a legally compliant and technically correct PDF version.

Aluminum extrusions manufactured to this standard are highly versatile and utilized across several major sectors:

For example, a complete designation for an extruded 6061 profile in a heat-treated condition could be "A 6061S-T6". : Specifies test methods for bendability

The standard has a long history, first being established in 1970. Like all JIS standards, it is systematically reviewed every five years to ensure it remains relevant and technically accurate. The most recent revision from 2022 introduced the latest updates to the document.

| First Digit | Alloy Series | Principal Alloying Element(s) | Key Characteristics | |---|---|---|---| | 1xxx | Pure Aluminum | 99.00% or higher aluminum | Excellent corrosion resistance, formability, and high electrical/thermal conductivity. | | 2xxx | Al-Cu | Copper | High strength (the original duralumin-type alloys). Lower corrosion resistance and surface treatability. | | 3xxx | Al-Mn | Manganese | Moderate strength with good corrosion resistance and formability. | | 4xxx | Al-Si | Silicon | Low melting point, often used for brazing/welding filler material. | | 5xxx | Al-Mg | Magnesium | Good corrosion resistance (especially in marine environments) and moderate-to-high strength. Surface treats well. | | 6xxx | Al-Mg-Si | Magnesium and Silicon | A highly versatile and popular series. Good extrudability and strength, which is greatly increased by heat treatment. | | 7xxx | Al-Zn-Mg | Zinc (and sometimes copper) | The highest strength aluminum alloys. Good weldability in certain variations. | | 8xxx | Other Elements | e.g., Lithium, Iron | Alloys with other principal elements not listed above. | | 9xxx | Reserve | — | Reserved for future use. |

The standard provides a comprehensive framework that includes , mechanical properties (such as tensile strength), dimensional tolerances , and quality benchmarks for a wide range of extruded profiles. These requirements are largely harmonized with corresponding international standards, including ISO 209 and parts of ISO 6362. mechanical properties (such as tensile strength)

Understanding the timeline of revisions is important for ensuring you are using the correct version. JIS H 4100 has a long history, with its first edition published on . The standard has undergone numerous revisions and confirmations to keep it current with industrial advancements.

: Specifies test methods for bendability, electric conductivity, and resistance to stress corrosion cracking (SCC). www.vosbltd.com Typical Alloys & Uses Alloy Series Common Applications Characteristics 5000 Series (e.g., 5052, 5083) Ships, vehicles, heat exchangers

The primary source for the official English translation and the original Japanese version.

Determines the maximum stress the material can withstand.