PropertiesGeneralPropertyTemperatureValueDensity23.0 °C17.55 g/cm³MechanicalPropertyTemperatureValueCommentElongation23.0 °C11 %Impact strength, Charpy notched23.0 °C1500 kJ/m²(5x5)Tensile strength23.0 °C1435 MPaYield strength23.0 °C1410 MPa

PropertiesGeneralPropertyTemperatureValueDensity23.0 °C17.55 g/cm³MechanicalPropertyTemperatureValueCommentElongation23.0 °C12 %Impact strength, Charpy notched23.0 °C1700 kJ/m²(5x5)Tensile strength23.0 °C1315 MPaYield strength23.0 °C1280 MPa

PropertiesGeneralPropertyTemperatureValueDensity23.0 °C17.5 g/cm³MechanicalPropertyTemperatureValueCommentElongation23.0 °C10 %Impact strength, Charpy notched23.0 °C1000 kJ/m²(5x5)Tensile strength23.0 °C1640 MPaYield strength23.0 °C1640 MPa

Isotropic composite magnets macinable with carbide and steel tools. Less machinable than type 1M 1/4 material but higher magnetic properties.PropertiesGeneralPropertyValueDensity5 g/cm³Technological propertiesPropertyOtherDiameter 10 mm by 2-10 mm disks. Diameter 15 mm by 2-10 mm disks. 20 x 10 x 2

Isotropic composite magnets macinable with carbide and steel tools. More machinable than type 1M 1/2 material but lower magnetic properties.PropertiesGeneralPropertyValueDensity4 g/cm³Technological propertiesPropertyOtherDiameter 10 mm by 2-10 mm disks. Diameter 15 mm by 2-10 mm disks. 20 x 10 x 2 t

GNPGraystar’s Fused MagnesiumAluminate Spinel is made of high purity raw materials in electric arc furnaces. The maximum amount of spinel crystals is achieved by using pure raw materials and electric arc furnaces. The product has a high thermal shock resistance and slag corrosion resistance, and goo

In the corrosion world it is generally accepted that there are eight basic types of corrosion. From this simple list of corrosion types, a daunting variety of corrosion related problems are encountered every day by people from all walks of life. On the corrosion solution side, there are only a

There are many types of corrosion damage, such uniform corrosion and pitting corrosion that people can readily see with the naked eye. However, some corrosion damage is not visible while still being detrimental to the structure's or equipment's integrity. This article will take a closer

Stress corrosion cracking (SCC) is the cracking caused by the combined influence of tensile stress and a corrosive environment. In the worst case it can lead to sudden failure of normally ductile metal alloys, especially at an elevated temperature. (For in introduction to this topic, read the a

Materials selection is a major corrosion control method in engineering design. It plays a role in the effective estimation of project costs, construction scheduling and safe operations. The fundamental concepts of materials selection pertain include:Material Types: This covers the broad

Hydrogen embrittlement is the result of the absorption of hydrogen by susceptible metals, resulting in the loss of ductility and reduction of load-bearing capability. Stress below the yield stress of the embrittled material can result in cracking and catastrophic brittle failure. Hydrogen embri

Have you ever run into the following situation? A component within your product broke or your manufacturing line was producing bad components, and you wanted to determine the root cause of the failure. This required determining the failure mode and failure mechanism, and also determining whether

Viscosity is one of the most essential physical properties of industrial fluids, such as coatings, paints and adhesives. Essentially, viscosity indicates a fluid’s resistance to deformation by shear or tensile stresses. In other words, this property describes the friction between

In a paper published in American Chemical Society’s ACS Photonics, a University of Surrey team detailed how they used characteristics of sunlight to design a disordered honeycomb layer to lie on top of a wafer of silicon. Their approach is echoed in nature in the design of butterfly wings and bird e

Researchers have developed a new kind of bandage that helps blood to clot and doesn’t stick to the wound. They tested various superhydrophobic materials — which are, like Teflon, extremely good at repelling liquids such as water and blood. The goal was to find coatings for devices that come into con

Engineers have invented a way to spray extremely thin wires made of a plant-based material that could be used in N95 mask filters, devices that harvest energy for electricity, and potentially the creation of human organs. The method involves spraying methylcellulose, a renewable plastic material der

Engineers have created a highly effective way to paint complex 3D-printed objects, such as lightweight frames for aircraft and biomedical stents, that could save manufacturers time and money and provide new opportunities to create “smart skins” for printed parts. Conventional sprays and brushes ca

Traditional glassmaking techniques can be costly and slow, and 3D printing glass often results in rough textures, making them unsuitable for smooth lenses. Using a new laser-based Volumetric Additive Manufacturing (VAM) approach — an emerging technology in near-instant 3D printing — researchers at L

The Modular Artificial-Gravity Orbital Refinery Spacecraft (MAGORS) is a technology from NASA Ames Research Center for in-situ refining or recycling of materials in space, including mass from asteroids, Mars moons, orbiting “space junk” debris, and for in-situ creation of products from operations

Light-emitting diode (LED)-based communications techniques allow computing devices, including cellphones, to communicate with one another using infrared light. However, LED techniques are underused because in its current state, an LED transmits data at far slower speeds than other wireless technolog