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In hysteresis materials it represents the energy dissipated in them during the cycle of magnetization & demagnetization (just refer any hysteresis loop diagram) . This is used in many applications especially in aerospace to damp the oscillations in satellite.
An aramid is any of a variety of strong, heat-resistant synthetic fibres, used in aerospace and military applications.
Linear slides are used in a wide variety of industrial applications. A linear slide may be used in medical industries, aerospace and food processing for example.
In 1995 an estimated 65 percent of the titanium metal produced in the United States was used in aerospace applications. The remaining 35 percent was used in the chemical processing industry.
Graphite has many applications. Powdered graphite is used to reduce friction between machine parts, engine casings on aerospace vehicles, and shielding high voltage power cables.
Climate models, Aerospace Modeling.
EFTE is a plastic that is often used in aerospace applications. It is durable, and withstands heavy abuse due to its strength and ability to handle high stress loads.
Copper Or Zinc Coated Pipe
No, rhenium is not a gas. It is a solid transition metal that has a high melting point and is used in various applications, such as in the aerospace industry and in the production of catalysts.
Nickel is consumed for the production of stainless steel, while the rest is used for various industrial purposes such as batteries, electronics, aerospace applications and land based gas turbines.
South Tantalum Niobium Co., Ltd. says : Tantalum is a kind of rare metal materials as sheet, tube, wire, ingot, foil, rod, target for various applications like energy, aerospace, electronics, machinery and chemical. south-tantalum.com
Compliant materials, also known as soft materials or compliant mechanisms, have unique properties that distinguish them from traditional rigid materials. Here are some of the key properties of compliant materials: Flexibility: Compliant materials are flexible and deformable under stress, which allows them to absorb energy and adapt to different shapes and loads. Elasticity: Compliant materials have elastic properties, which means they can return to their original shape after being stretched or deformed. Non-linear behavior: Compliant materials exhibit non-linear behavior, which means that their deformation and response to stress are not proportional or predictable. Lightweight: Compliant materials are typically lightweight, which makes them ideal for applications where weight is a critical factor. Damping: Compliant materials have the ability to dissipate energy through damping, which can reduce vibrations and noise. High strain capacity: Compliant materials can often tolerate large strains without breaking or losing their functionality. Material compliance: Compliant materials can be designed to have a specific compliance or stiffness, allowing them to be tuned to specific applications. Smoothness: Compliant materials have a smooth and continuous surface, which can reduce wear and friction in certain applications. Compliant materials have a wide range of potential applications, including in robotics, aerospace, medical devices, and consumer products.