Manufactured by a mountain bike frame manufacturer

Magnesium alloys are well-known for being the lightest structural alloys [1].

They are made of magnesium, the lightest structural metal, mixed with other metal elements to improve the physical properties. These elements include manganese, aluminium, zinc, silicon, copper, zirconium, and rare-earth metals [2].

Some of magnesium’s favourable properties include low specific gravity and a high strength-to-weight ratio. As a result, the material lends itself to a range of automotive, aerospace, industrial, electronic, biomedical, and commercial applications

Properties and advantages Applications

Magnesium alloys cover a wide array of applications, from automotive and aerospace applications to electronic and biomedical uses.

Structural applications Automotive, aerospace, industrial, and commercial applications are examples of structural applications. The advantage of magnesium alloys to be used in such applications is their light weight, high strength-to-weight ratio, high stiffness-to-weight ratio, castability, machinability, and great damping [4].

Automotive: support brackets for brakes and clutch, housing for transmission

Aerospace: landing wheels, helicopter rotor fittings, gearbox housings

Industrial: high-speed operating machinery, such as textile machines

Commercial: luggage, hand tools, computer housings, ladders

Electronic applications Electronic applications include electronic packaging, hard drive arms, cell phone and portable media device housings. Magnesium alloys are being used instead of plastics due to their light weight, strength and durability. They also are relatively better for heat dissipation and protection against electromagnetic and radio frequency interference [5].

Medical applications Portable medical equipment and wheelchairs that require light material make good use of magnesium alloys. Also, cardiovascular stents and orthopaedic devices are potential applications of some magnesium alloys due to magnesium’s biocompatibility and bioabsorbability [4].

Manufactured by a mountain bike frame manufacturer

Magnesium can be used to design bicycle frames that are lighter than aluminum while maintaining high tensile strength and damping capacity. All of this results in a smoother, more efficient ride. Magnesium is also less expensive than popular lightweight materials like carbon fiber.

Building magnesium bike frames is tricky, but their wide range of performance benefits make them well worth considering. When cyclists are looking for the strongest, lightest bike possible, magnesium may come into play in their quest. Along with titanium, carbon fiber and even scandium, magnesium has been touted as a better material for bicycle frames than the more traditional steel and aluminum.

The frame is the backbone of a bike’s design. It’s the structure that holds all the moving parts together and sets the stage for the bike’s geometry, component compatibility, and key riding rules. Since it’s the largest and often the heaviest of the bikes parts, so many materials have been explored to make the frame lighter and stronger.

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