carbon fiber, Kevlar, most metals oh and lexan
Diamonds, gold, and stainless steel are examples of materials that are highly resistant to erosion and do not degrade easily. These materials are often used in applications where long-term durability and wear resistance are needed.
Abundant materials are natural resources that are easily found in large quantities in the environment, such as sunlight, wind, water, and biomass. These materials are sustainable and readily available for use in various applications without the risk of depletion.
A materials scientist with expertise in materials engineering would be knowledgeable about the properties of materials that can withstand extreme temperatures and conditions in outer space. They would study the behavior of materials under different environments and develop materials that are suitable for space applications.
Medicinal chemists study the structural properties of compounds intended for applications to human medicine. Materials chemists study and develop new materials to improve existing products or make new ones.
Materials similar to alumina include zirconia, silica, and titanium dioxide. These materials have high hardness, excellent chemical resistance, and thermal stability. They are commonly used in applications that require similar properties as alumina, such as in ceramics, refractories, and catalyst supports.
There are many different examples of what could be considered tough materials. These materials include rubbers, metals, and plastics for example.
Compressed water is used in industrial applications for cutting, cleaning, and processing materials. It is a powerful tool that can be used to remove debris, cut through tough materials, and even generate electricity. The high pressure of compressed water allows for precise and efficient work in various industries such as manufacturing, construction, and mining.
Ceramic materials, such as aluminum oxide or silicon carbide, are very strong and tough but exhibit low elongation when absorbing energy due to their brittle nature. These materials can withstand high levels of stress before fracturing, making them suitable for applications requiring high strength and hardness.
uses of dipole materials
Copper. The main grade of copper used for electrical applications is electrolytic-tough pitch (ETP) copper (CW004A or ASTM designation C11040). This copper is at least 99.90% pure.
refractory metals; electric contact materials; switch materials; electrodes; friction materials; magnetic applications; metal-bonded diamond tool materials. posted by: kassuna, Department of Production Engineering University of Peradeniya, Sri Lanka.
In a stress-strain graph, hard materials have the steepest graph, owing to having the highest young modulus. This is because Hard materials resist a deformation, wether elastic or plastic. So initially the steepest graph in a stress-strain graph is the strongest.Tough materials withstand force, but they do not resist the deformation. The special thing in tough materials is that they can take in a lot of elastic potential energy. In a stress-strain graph, a Tough material has the highest area under curve.A material can be tough without having being hard. A material that is hard is not necessarily tough.
Microwave absorption materials have properties that allow them to absorb and dissipate electromagnetic energy at microwave frequencies. These materials are used in various applications such as radar absorbing coatings, stealth technology, and electromagnetic interference shielding.
A tough job market involves a high degree of unemployment. In a tough job market, employers receive a large number of applications for each available position, making it difficult for a would-be employee to land a job.
Stainless steel is tough and looks good
Heat friction in high-speed applications can cause materials to degrade and lose their strength, leading to decreased performance and potential failure.
Diope has potential applications in advanced materials research for creating stronger and more durable materials, improving energy storage devices, enhancing electronic components, and developing innovative technologies for various industries.