Materials Science
Toughness
"Ability to take a punch" refers to a substance's ability to absorb energy without suffering structural damage or fracturing.
Amorphous
"without form" Solid substance that lacks the definite structure of a crystal. Atoms and molecules don't align in a lattice pattern. Many polymers including glass, gel, and thin films.
Ceramics
A group of crystalline inorganic materials characterized by good strength, especially in compression, and high temperatures. Many have very good electrical and thermal insulation behavior.
Composites
A group of materials formed from mixtures of metals, ceramics, or polymers in such a manner that unusual combinations of properties are obtained (e.g. fiberglass).
Semiconductors
A group of materials having electrical conductivity between metals and typical ceramics (e.g. Si, GaAs)
Polymers
A group of materials normally obtained by joining organic molecules into giant molecular chains or networks. Characterized by low strengths, low melting temperatures, and poor electrical conductivity. (e.g. rubber, plastics, gels)
Single Crystal
A group of materials that is made up of only one crystal there are no grain boundaries).
Polycrystalline Material
A material composed of many crystals (as opposed to a single-crystal material that has only one crystal).
Crystalline Material
A material composed of one or many crystals. In each crystal, atoms or ions show a long-range periodic arrangement.
Semi-Crystalline
A material composed partially of crystalline and partially of amorphous matter.
Smart Material
A material that can sense and respond to an external stimulus such as change in temperature application of a stress, or change in humidity or chemical environment.
Viscosity
A measure of fluids resistance to gradual deformation by stress.
Young's Modulus
A measure of the stiffness of an elastic material.It is equal to the stress over the strain.
Alloy
A metallic material that is obtained by chemical combinations of different elements (e.g. steel is made frm iron and carbon). Typically, have better mechanical properties than pure metals.
Monomer
A molecule that can bond with others of the same kind to form a polymer chain- can form at least two bonds.
Molecular Weight
A number that is related to the length and number of monomer repeats units that comprise a polymer. A polymer material typically has polymer chains of various lengths (average).
Crystalline
A solid material whose constituent atoms, molecules, or ions are arranged in an ordered pattern extending in all three spatial dimensions.
Glass-Ceramics
A special class of materials obtained by forming a glass and then heat treating it to form small crystals.
Thermoplastics
A special group of polymers in which molecular chains are entangled but not interconnected. They can easily be melted and formed into useful shapes. Harden when cooled. Can be melted/cooled over and over unlike thermosets. Normally, these polymers have a chainlike structure (e.g. polyethylene).
Thermosets
A special group of polymers that decompose rather than melt upon heating. They are normally quite brittle due to a relatively rigid, three-dimensional network structure (e.g. polyurethane).
Solvent
A substance that can dissolve another substance resulting in a solution.
Viscoelasticity
A substance that demonstrates properties of both a fluid and an elastic solid. (e.g. silly putty)
Thermal Stability
A substance's ability to resist breaking down under intense heat. High = withstand high temperatures. When overheat chemical bonds will break and change the substance's properties.
Materials Science and Engineering Tetrahedron
A tetrahedron diagram showing how the performance-to-cost ratio of materials depends upon the composition microstructure, synthesis, and processing.
Amorphous
Also known as a non-crystalline solid, they lack the long-range order characteristic of a crystalline material.
Glass
An amorphous material derived from the molten state, typically, but not always, based on silica
Metal
An element that has metallic bonding and generally good ductility, strength, and electrical conductivity.
Physical Properties
Characteristics such as color, elasticity, electrical, or thermal conductivity, magnetism, and optical behavior that generally are not significantly influenced by forces acting on a material.
Chirality
Chiral molecules are those for which there is another identical molecule arranged as a mirror image (human hands). Achiral molecules are symmetrical when reflected.
Grains
Crystals in a polycrystalline material.
Structure
Description of the arrangement of atoms or ions in a material. Has profound influence on many properties of materials even if overall composition does not change.
Processing
Different ways for shaping materials into useful components or changing their properties
Fatigue Failure
Failure of a material due to repeated loading and unloading.
Stress
Force per unit area.
Plastic Deformation
Irreversible deformation, as opposed to the reversible elastic deformation.
Density
Mass per unit volume of a material, usually expressed in units of g/cm^3 or lb/in^3.
Morphology
Physical properties of a substance (e.g. shape, size, composition, and phase distribution).
Plastics
Polymers containing other additives
Fluoropolymers
Polymers with fluorine atoms are high-performance plastics used in a variety of intense fields. (e.g. tetrafluoroethylene "Teflon").
Mechanical Properties
Properties of a material, such as strength, that describe how well a material withstands applied forces, including tensile or compressive forces, impact forces, tensile or compressive forces, impact forces, cylindrical or fatigue forces, or forces at high temperatures.
Grain Boundaries
Regions between grains of a polycrystalline material.
Plasticizers
Substances that may be added to a material to increase its flexibility and resilience. (e.g. Water to clay).
Glass Transition Temperature
Temperature at which a polymer changes from a hard material to a soft rubbery substance. Not a distinct temperature, a range over which the polymer chains increase mobility.
Strain
The amount of deformation an object experiences compared to its original size and shape.
Contact Angle
The angle where a liquid/vapor interface meets a solid surface. It qualifies the wettability of a solid surface by a liquid via the Young equation.
Ionic Bond
The bonding between a non-metal and a metal that occurs when charged atoms (ions) attract after one loses one or more of its electrons.
Covalent Bond
The chemical bond that involves the sharing of pairs of electrons between atoms.
Composition
The chemical make-up of a material.
Crystallinity
The degree to which a substance's molecules and atoms align. More = less amorphous. High = harder, tougher, and durable. (e.g. polyethylene).
Polydispersity
The degree to which objects in a mixture have varying size, shape, and weight. A uniform mixture contains identical objects, whereas a mixture with a high degree contains widely different objects. To polymers, range of molecular weights that exist in the material.
Atomic Packing Factor
The fraction of volume in a crystal structure that is occupied by atoms.
Synthesis
The process by which materials are made form naturally occurring or other chemicals.
Polymerization
The process by which organic molecules are joined into giant molecules or polymers.
Hydrolysis
The process of breaking chemical bonds using water.
Melt Phase
The process when a substance transitions from a crystalline solid to an amorphous liquid through heat or pressure the molecules become less ordered and solid liquefies.
Viscosity
The resistance of a material to flow. High = higher resistance. Low = flow freely. May change depending on temperature. (e.g. Molasses vs Honey)
Creep Rate
The slow permanent deformation under the influence of stresses. It occurs as a result of long term exposure to high levels of stress that are below the yield strength of the material.
Strength-to-Weight Ratio
The strength of a material divided by density; high = strong but light.
Yield Strength
The stress at which a material begins to deform plastically.
Microstructure
The structure of a material at the microscopic length scale.
Melting Point
The temperature at which the melt phase of a substance occurs.
Surface tension
The tendency of fluid to resist external force, caused, by cohesion.
Co-Monomers
Two different monomers that bond together.
Tensile Strength
the ability of a substance to resist breaking from a pulling force. High = takes great force to cause it to snap by simply pulling on it (e.g. steel beam).
