What Is The Difference Between Titanium Alloys Aluminum Alloys In Machining?

Many Friends Know About Aluminum Alloys, But Many Friends May Have Heard Of Titanium Alloys May Know A Little About Them. Let Huiwen Intelligent Manufacturing Company Introduce The Differences Between Titanium Alloys Aluminum Alloys.

1. Titanium Alloy

Titanium Alloy Is An Alloy Composed Of Titanium Other Elements. Titanium Has Two Isomorphous Crystals: Below 882℃, It Is A Close-Packed Hexagonal Structure Α Titanium, Above 882℃, It Is A Body-Centered Cubic Β Titanium Alloy Element.

According To Their Influence On Phase Transition Temperature, They Can Be Divided Into Three Categories:

① Elements That Stabilize The Α Phase Increase The Phase Transition Temperature Are Α-Stabilizing Elements, Including Aluminum, Carbon, Oxygen Nitrogen. Among Them, Aluminum Is The Main Alloying Element Of Titanium Alloy, Which Has A Significant Effect On Improving The Room Temperature High Temperature Strength Of The Alloy, Reducing The Specific Gravity Increasing The Elastic Modulus.

② Elements That Stabilize The Β Phase Reduce The Phase Transition Temperature Are Called Β-Stabilizing Elements, Which Can Be Divided Into Two Types: Isomorphous Eutectoid. The Former Include Molybdenum, Niobium, Vanadium, Etc.; The Latter Include Chromium, Manganese, Copper, Iron, Silicon, Etc.

③ Elements That Have Little Effect On The Phase Transition Temperature Are Neutral Elements, Such As Zirconium Tin. 

2. Aluminum Alloy 

A General Term For Aluminum-Based Alloys. The Main Alloying Elements Are Copper, Silicon, Magnesium, Zinc, Manganese, The Secondary Alloying Elements Are Nickel, Iron, Titanium, Chromium, Lithium. 

Aluminum Alloy Has Low Density But High Specific Strength, Which Is Close To Exceeds That Of High-Quality Steel. It Has Good Plasticity Can Be Processed Into Various Profiles. It Has Excellent Electrical Conductivity, Thermal Conductivity Corrosion Resistance. It Is Widely Used In Industry Its Usage Is Second Only To Steel. 

Aluminum Alloys Are Divided Into Two Categories: Cast Aluminum Alloys, Which Are Used In The Cast State; Deformed Aluminum Alloys, Which Can Withstand Pressure Processing Have Higher Mechanical Properties Than Cast Aluminum Alloys. They Can Be Processed Into Aluminum Alloys Of Various Shapes Specifications. They Are Mainly Used To Manufacture Aviation Equipment, Daily Necessities, Doors Windows For Buildings, Etc. 

Aluminum Alloys Can Be Divided Into Deformed Aluminum Alloys Cast Aluminum Alloys According To The Processing Method. Deformed Aluminum Alloys Are Further Divided Into Non-Heat-Treatable Heat-Treatable Aluminum Alloys. Non-Heat-Treatable Heat-Treatable Aluminum Alloys Cannot Improve Mechanical Properties Through Heat Treatment Can Only Be Strengthened Through Cold Working Deformation. They Mainly Include High-Purity Aluminum, Industrial High-Purity Aluminum, Industrial Pure Aluminum, Rust-Proof Aluminum. Heat-Treatable Heat-Treatable Aluminum Alloys Can Improve Mechanical Properties Through Heat Treatment Methods Such As Quenching Aging. They Can Be Divided Into Hard Aluminum, Forged Aluminum, Super-Hard Aluminum, Special Aluminum Alloys. 

Aluminum Alloys Can Be Heat Treated To Obtain Good Mechanical Properties, Physical Properties Corrosion Resistance. 

Cast Aluminum Alloys Can Be Divided Into Aluminum-Silicon Alloys, Aluminum-Copper Alloys, Aluminum-Magnesium Alloys  Aluminum-Zinc Alloys According To Their Chemical Composition.

Through The Introduction Of Huiwen Intelligent Manufacturing Company, What Are The Differences Between Titanium Alloy Aluminum Alloy? Everyone Should Have Some Understanding. In General, Titanium Alloy Aluminum Alloy Each Have Their Own Advantages, It Mainly Depends On Your Own Needs Opinions. Different Materials Have Different Applicable Scopes, So Everyone Still Has To Choose The Appropriate Material For Processing According To Their Own Needs.