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Supplier: Belmont Metals, Inc.
Description: Silver. There are over 100 recognized casting alloys, and more than 400 wrought Aluminum alloy designations. Aluminum alloys are very versatile, since stiffness, strength, corrosion resistance, machinability, and other properties can be tailored by alloy selection and heat treatments. Category Forms
- Metal / Alloy Types: Aluminum / Aluminum Alloy (UNS A)
- Standards / Specifications: AA / IADS, Casting Grade (ICI, etc.)
- Shape / Form: Ingot
- Features: Corrosion Resistant
Supplier: Universal Wire Works Inc.
Description: Alloy 4010 is designed for welding aluminum casting alloy 356.0, A356.0, 357.0, A357.0 and wrought alloy 3003. Alloy 4010 is used in the Gas Metal Arc and Gas Tungsten Arc welding processes. Alloy 4010 is also known as A356 Aluminum.
- Metal / Alloy Types: Aluminum / Aluminum Alloy (UNS A)
- Light Alloy: Yes
- Standards / Specifications: Specialty / Other
- AISI / AA / CDA Grade: 4010
Supplier: ASTM International
Description: Creep-Rupture Properties of Aluminum Alloy A356-T61 Volume 5, Issue 6 (November 1977) Permanent-mold test bars of aluminum alloy A356.0-T61 were subjected to elevated-temperature tensile tests and isothermal constant-load stress-rupture tests (for lives up to 10 000 h), under the aegis of the Metal
Supplier: IHS Product Design
Description: ALUMINUM ALLOY (A356-T6) MODIFIED, CAST WHEEL ***TO BE USED WITH FORD WSS-M99P1111-A***
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Kee Safety Inc.
Kee Lite ® Aluminum Railing Components
of tubular structures. Lightweight and Corrosion Resistant. Kee Lite fittings are made from high grade Aluminum Silicon Magnesium Alloy (A356-T6) which provide for a lightweight, corrosion resistant, and strong alternative for fabrication of tubular structures. Due to the superior corrosion resistance, Kee Lite fittings offer extremely low maintenance in outdoor settings. Kee Lite fittings are only one-third the weight of our cast iron fittings, with about 75% of comparable tensile strength... (read more)
Browse Pipe Fittings Datasheets for Kee Safety Inc.
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Analyzing a Product's Working Environment To Aid Part Designs
cast from A356-T6 aluminum, reducing machining cost, improving product durability, and substantially reducing the part's weight. Cast as a cargo-container refrigeration unit air-circulating fan, this A380 aluminum evaporator stator is designed to withstand strict environmental requirements
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Impact Behavior of A356 Foundry Alloys in the Presence of Trace Elements Ni and V
In the present work, the impact behavior of unmodified A356 alloys with the addition of Ni or V in as-cast and T6 heat-treated conditions was assessed.
The Effect of the Heat Treatment on the Dust Emission During Machining of an Al-7Si-Mg Cast Alloys
The A356 alloys was received in as-cast condition (T0), and the samples were then divided into five groups as follows: (i) two blocks in as-cast condition (T0); (ii) two blocks in T4 condition (solution heat-treated ��SHT�� + Quenching); (iii) two �
Advanced Engineering Materials II
Effect of Ti Content on Microstructure and Hardness of A356 Alloy .
Effect of mischmetal modification treatment on the microstructure, tensile properties, and fracture behavior of Al-7.0%Si-0.3%Mg foundry aluminum alloys
Abstract The influence of 0.1�1.0 wt% mischmetal (MM) additives on the microstructures, tensile properties, and fracture behavior of A356 alloys were investigated in detail under the as-cast condition.
Microstructural effects on the tensile and fracture behavior of aluminum casting alloys A356/357
In comparison with the unmodified alloys, the Sr-modified alloys show higher ductility, particularly the A356 alloy , but slightly lower yield strength.
From Atoms to Autos - A new Design Paradigm Using Microstructure-Property Modeling Part 1: Monotonic Loading Conditions
Dighe, M.D., Gokhale, A.M., and Horstemeyer, M. F., �Effect of Temperature on Silicon Particle Damage in Cast Microstructure of A356 Alloy ,� Metallurgical and Materials Transactions, 1997, Vol 29a, pp. 905-908, 1998.
Design and Product Optimization for Cast Light Metals
3 4.2 MODELING OF A356 ALLOY CASTINGS .
High-Temperature Workability of Thixocast A356�Aluminum Alloy
The main objectives of the present investiga- tion is to fill this knowledge gap, study the hot workability of thixocast A356 alloy , and compare it with a conventionally cast samples of the same material.
Thermo-mechanical behaviours of light alloys in comparison to high temperature isothermal behaviours
At high temperatures, the cyclic hardening behaviour occurred in the AZ91 alloy and the A356 alloy had the cyclic softening behaviour.
Experimental and numerical evaluations of stress relaxation in A356 aluminium alloy subjected to out-of-phase thermomechanical cyclic loadings
One of these aluminium alloys is the aluminium�silicon�magnesium alloy, entitled as the A356 alloy , which has a vast application in diesel engine cylinder heads.1�3 In such complicated engine components, there are two types of cyclic loadings, which are in high cycle �
Microstructure and corrosion behaviour of A356 aluminium alloy modified with Nd
A more refined microstructure and the presence of Nd?rich phases in the A356Nd alloy considerably improves its pitting corrosion resistance compared with the A356 alloy which shows severe pitting corrosion.
On thermal analysis, macrostructure and microstructure of grain refined Al�Si�Mg cast alloys: role of Sr addition
In A356 alloy , individual additions of the grain refiner raise the primary a-Al nucleation temperature by as much as 4 to 5uC, while sole additions of the Sr modifier depress the eutectic temperature by almost 7 to 8uC.