Overview of Magnesium Alloy bar AZ31B AZ91D AZ80 ZK60A WE43 Mg Rod/bar Magnesium Round bar

Alumina Bars are high-purity ceramic components made from aluminum oxide (Al₂O₃), offering exceptional hardness, thermal stability, and electrical insulation. Ideal for industrial, electronic, and high-temperature applications.

Features of Magnesium Alloy bar AZ31B AZ91D AZ80 ZK60A WE43 Mg Rod/bar Magnesium Round bar

High Thermal Resistance – Withstands extreme temperatures up to 1700°C.

Excellent Electrical Insulation – Low conductivity for high-voltage applications.

Superior Mechanical Strength – Resistant to wear, corrosion, and chemical erosion.

Precision Machinability – Can be customized to tight tolerances.

Wide Applications – Used in furnaces, semiconductors, medical devices, and more.

Specification of Magnesium Alloy bar AZ31B AZ91D AZ80 ZK60A WE43 Mg Rod/bar Magnesium Round bar

Magnesium alloy bars use great solutions. You need light-weight stamina. These bars provide. Usual qualities consist of AZ31B, AZ91D, AZ80, ZK60A, and WE43. Each alloy has particular staminas.

AZ31B is a preferred general-purpose choice. It stabilizes strength and corrosion resistance well. Creating and machining AZ31B is reasonably straightforward. This makes it functional for several applications.

AZ91D supplies greater toughness. Its castability is excellent. AZ91D is usually picked for components requiring good tightness. It serves well in automotive and digital housings.

AZ80 provides also better stamina. It attains this via warmth treatment. AZ80 is optimal for architectural parts needing high efficiency. Believe aerospace parts or high-stress devices.

ZK60A is an additional high-strength alternative. It additionally responds well to warmth therapy. ZK60A is frequently made use of sought after aerospace and racing applications. Its tiredness resistance is solid.

WE43 sticks out for high-temperature performance. It stands up to creep well. WE43 maintains stamina at elevated temperatures. This makes it crucial for jet engines and aerospace frameworks.

These alloys come as rounded bars or poles. Requirement sizes vary commonly. Customized sizes are frequently possible. Magnesium is the lightest structural metal. Magnesium bars evaluate roughly 35% less than aluminum. They are about 75% lighter than steel. This weight conserving is vital for relocating parts.

Machining magnesium alloys is typically very easy. They produce great chips. Surface area surfaces are generally smooth. Good corrosion resistance is possible with appropriate surface treatments. Magnesium alloys moisten vibrations efficiently. They supply great thermal conductivity too.

Common uses include aircraft seats, helicopter transmissions, cam bodies, laptop computer cases, portable tools, and showing off goods like bike frames. Magnesium bars help in reducing weight dramatically. They enhance gas performance and handling.

Applications of Magnesium Alloy bar AZ31B AZ91D AZ80 ZK60A WE43 Mg Rod/bar Magnesium Round bar

Magnesium alloy bars provide large advantages. They are extremely light. This matters a lot for relocating things. Conserving weight saves gas. Planes and helicopters use them. Parts like seat frameworks and gearbox real estates get made from AZ31B, AZ80, ZK60A bars. Cars and trucks require lighter parts too. Magnesium AZ31B, AZ91D bars aid make guiding wheels and transmission situations. Electric automobiles truly need this weight saving. It helps their batteries last much longer.

These alloys are solid for their weight. They handle stress well. This makes them helpful for architectural tasks. Aerospace uses ZK60A and WE43 bars popular places. WE43 takes care of heats better than others. It functions near engines. Protection tasks utilize it for tough components. Commercial tools needs tough, light components. Magnesium bars fit here. Points like housings and frameworks benefit.

Medical devices likewise use magnesium alloys. Some alloys break down securely inside the body. ZK60A shows promise for implants. This stays clear of requiring a 2nd surgical procedure. Electronic devices require lightweight, solid products. Magnesium bars work for laptop frames, electronic camera bodies, and tool housings. AZ31B and AZ91D prevail here. They protect against electronic interference also.

Hand devices and sporting products need light-weight toughness. Magnesium AZ31B, AZ80 bars build solid, easy-to-handle tools. Bicycles, archery equipment, and climbing devices utilize them. Their natural resonance damping assists. This makes devices feel far better to utilize. Magnesium alloys rust simpler than steel or light weight aluminum. Surface area therapies fix this. They add protection. Typical finishings include anodizing and plating.

Company Profile

Alumina Technology Co., Ltd,. We focus on the research and development, production and sales of alumina products, serving the electronics, ceramics, chemical and other industries. Since its establishment in 2005, the company has been committed to providing customers with the best products and services, and has become a leader in the industry through continuous technological innovation and strict quality management.

Our products includes but not limited to Alumina Boat, Alumina Crucible, Alumina Dish, Alumina Foam Filter, Alumina Plate, Alumina Rod, Alumina Bar, Alumina Balls, Filter Alumina, Nano Alumina Powder, Spherical Alumina Powder, ect. please feel free to contact us.(nanotrun@yahoo.com)

Payment Methods

T/T, Western Union, Paypal, Credit Card etc.

Shipment Methods

By air, by sea, by express, as customers request.

5 FAQs of Magnesium Alloy bar AZ31B AZ91D AZ80 ZK60A WE43 Mg Rod/bar Magnesium Round bar

What makes AZ31B, AZ91D, AZ80, ZK60A, and WE43 magnesium bars different?
Each alloy has unique properties. AZ31B offers good weldability and formability. It is a common general-purpose choice. AZ91D provides excellent castability and decent strength. It is often used for die-cast parts. AZ80 delivers higher strength than AZ31B or AZ91D. It is typically achieved through forging or extrusion. ZK60A offers the highest strength among these common magnesium alloys. It rivals some aluminums. WE43 provides exceptional strength at high temperatures. It also resists corrosion better than other magnesium alloys. WE43 suits demanding aerospace and racing applications.

Where are these magnesium alloy bars typically used?
These bars serve many industries needing lightweight strength. AZ31B bars are common in automotive components, like seat frames and steering columns. AZ91D is popular for intricate cast parts in power tools and electronics housings. AZ80 finds use in high-stress aerospace parts and military equipment. ZK60A is chosen for applications needing maximum magnesium strength, like helicopter transmission housings. WE43 excels in jet engine components and high-performance racing parts exposed to heat.

Is machining magnesium alloy bars difficult?
Machining magnesium is generally easy. It machines faster than steel or aluminum. Magnesium produces small chips. Proper chip removal is crucial. Magnesium chips and fine dust can ignite. Use appropriate coolant or low speeds. Keep the work area clean. Avoid sparks. Magnesium machines well with standard carbide tools. Sharp tools are important. Always follow strict safety protocols for magnesium machining.

What specs matter when buying magnesium alloy bars?
Key specifications are vital. Confirm the exact alloy grade (AZ31B, AZ91D, etc.). Know the required diameter and length tolerance. Check the surface finish condition (e.g., extruded, peeled, polished). Understand the required mechanical properties (tensile strength, yield strength). Verify the chemical composition meets standards like ASTM B107. Ensure traceability with proper mill certifications. Specify any special packaging needs for corrosion prevention.

How do I handle corrosion with magnesium bars?
Magnesium corrodes easily without protection. Bare magnesium needs surface treatment. Common treatments include chromate conversion coating or anodizing. These coatings provide a base for paint. Painted systems offer the best long-term protection. Store bars in a cool, dry place. Avoid contact with dissimilar metals like steel or copper. Use isolation materials if needed. Handle bars with clean gloves to prevent contamination. Apply protective oil for extended storage.