Aluminum Titanium Master Alloys Introduction
Aluminum Titanium Master Alloys are semi-finished products and can be formed in different shapes. They are a pre-alloyed mixture of alloying elements. They are also known as modifiers, hardeners, or grain refiners based on their applications. They are added to a melt to achieve the desired result. They are used instead of pure metal because they are very economical and save energy and production time.
Applications of Aluminum Titanium Master Alloys
1. Hardeners: Used for enhancing the physical and mechanical properties of metal alloys.
2. Grain Refiners: Used for controlling the dispersion of individual crystals in metals to produce a finer and more uniform grain structure.
3. Modifiers & Special Alloys: Typically used to increase strength, ductility, and machinability.
Aluminum Titanium Master Alloy Specification
|
Product Name
|
Aluminum titanium master alloy
|
|
Content
|
Chemical Compositions ≤ %
|
|
Balance
|
Si
|
Fe
|
Cu
|
Mn
|
Cr
|
Ni
|
Ti
|
B
|
V
|
Zn
|
Pb
|
Sn
|
Mg
|
C
|
Other Single
|
Total Impurities
|
|
AlTi3
|
Al
|
0.30
|
0.35
|
/
|
/
|
/
|
/
|
2.5~3.5
|
/
|
/
|
/
|
/
|
/
|
/
|
/
|
0.05
|
0.15
|
|
AlTi4
|
Al
|
0.20
|
0.30
|
/
|
/
|
/
|
/
|
3.5~4.5
|
/
|
/
|
0.10
|
/
|
/
|
/
|
/
|
0.05
|
0.15
|
|
AlTi5
|
Al
|
0.50
|
0.45
|
0.15
|
0.35
|
0.10
|
0.10
|
4.5~5.5
|
/
|
0.25
|
0.15
|
0.10
|
0.10
|
0.50
|
/
|
0.05
|
0.15
|
|
AlTi6
|
Al
|
0.30
|
0.35
|
/
|
/
|
/
|
/
|
5.5~6.5
|
0.004
|
0.30
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi10
|
Al
|
0.30
|
0.35
|
/
|
/
|
/
|
0.05
|
9.0~11.0
|
0.004
|
0.50
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi6A
|
Al
|
0.20
|
0.20
|
/
|
/
|
/
|
/
|
5.5~6.5
|
0.004
|
0.20
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi10A
|
Al
|
0.20
|
0.20
|
/
|
/
|
/
|
0.05
|
9.0~11.0
|
0.004
|
0.20
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi12
|
Al
|
0.30
|
0.30
|
/
|
/
|
0.10
|
0.10
|
11.0~13.0
|
/
|
0.50
|
/
|
/
|
0.10
|
/
|
/
|
0.10
|
0.15
|
|
AlTi15
|
Al
|
0.30
|
0.30
|
/
|
/
|
0.15
|
0.15
|
14.0~16.0
|
/
|
0.50
|
/
|
/
|
0.15
|
/
|
/
|
0.10
|
0.15
|
|
AlTi3B1
|
Al
|
0.20
|
0.30
|
/
|
/
|
/
|
/
|
2.8~3.4
|
0.7~1.1
|
/
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi5B0.2
|
Al
|
0.30
|
0.35
|
/
|
/
|
/
|
/
|
4.5~5.5
|
0.15~0.25
|
0.25
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi5B0.2A
|
Al
|
0.15
|
0.20
|
/
|
/
|
/
|
/
|
4.5~5.5
|
0.15~0.25
|
0.20
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi5B0.2B
|
Al
|
0.30
|
0.40
|
/
|
/
|
/
|
/
|
4.5~5.5
|
0.1~0.5
|
0.20
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi5B0.6A
|
Al
|
0.20
|
0.30
|
/
|
/
|
/
|
/
|
4.5~5.5
|
0.5~0.7
|
/
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi5B0.6
|
Al
|
0.20
|
0.30
|
/
|
/
|
/
|
/
|
4.5~5.5
|
0.5~0.7
|
0.20
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi5B1
|
Al
|
0.20
|
0.30
|
/
|
/
|
/
|
/
|
4.5~5.5
|
0.8~1.2
|
0.20
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi5B1A
|
Al
|
0.15
|
0.20
|
/
|
/
|
/
|
/
|
4.8~5.2
|
0.9~1.1
|
0.05
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi5B1B
|
Al
|
0.20
|
0.25
|
/
|
/
|
/
|
/
|
4.5~5.5
|
0.8~1.2
|
0.10
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi5B1C
|
Al
|
0.20
|
0.30
|
/
|
/
|
/
|
/
|
4.5~5.5
|
0.4~1.2
|
0.20
|
/
|
/
|
/
|
/
|
/
|
0.03
|
0.10
|
|
AlTi3C0.15A
|
Al
|
0.20
|
0.20
|
/
|
/
|
/
|
/
|
2.6~3.4
|
0.004
|
0.05
|
/
|
/
|
/
|
/
|
0.08~0.22
|
0.03
|
0.10
|
|
AlTi3C0.15
|
Al
|
0.30
|
0.15
|
/
|
/
|
/
|
/
|
2.6~3.4
|
0.004
|
0.30
|
/
|
/
|
/
|
/
|
0.08~0.22
|
0.03
|
0.10
|
|
AlTi3C0.3
|
Al
|
0.20
|
0.20
|
/
|
/
|
/
|
/
|
2.6~3.4
|
0.004
|
0.05
|
/
|
/
|
/
|
/
|
0.25~0.35
|
0.03
|
0.10
|
|
Other Products
|
AlMn, AlTi, AlNi, AlV, AlSr, AlZr, AlCa, AlLi, AlFe, AlCu, AlCr, AlB, AlRe, AlBe, AlBi, AlCo, AlMo, AlW, AlMg, AlZn, AlSn, AlCe, AlY, AlLa, AlPr, AlNd, AlYb, AlSc, etc.
|
Aluminum Titanium Master Alloy Packaging
Our Aluminum Titanium Master Alloys are carefully handled to minimize damage during storage and transportation and to preserve the quality of our product in its original condition.
Aluminum Titanium Master Alloy FAQs
Q1: What are the primary applications of Aluminum-Titanium Master Alloy?
Aerospace: Improves strength and toughness in lightweight structural components.
Automotive: Refines microstructure for cast and wrought aluminum alloys in engine parts and wheels.
Industrial Equipment: Used in machinery parts for improved performance.
Foundry and Casting: Grain refinement in high-performance aluminum alloys.
Q2: What are the benefits of using Aluminum-Titanium Master Alloy?
Grain Refinement: Produces a finer grain structure for better mechanical properties.
Improved Strength and Toughness: Enhances tensile and fatigue strength.
Better Machinability: Improves processing quality of aluminum alloys.
Enhanced Surface Finish: Provides smoother surfaces in cast parts.
Q3: How is Aluminum-Titanium Master Alloy used?
It is added to molten aluminum to introduce titanium, which acts as a grain refiner, improving the alloy’s structure and mechanical properties.
