Introduction to Metals 121
Intro to Metals provides an overview of popular ferrous and nonferrous metals and their properties. This course introduces users to the three types of metal crystal structures, how grains develop in metal, the purpose of heat treating, and how these aspects impact a material's characteristics. Steel, aluminum, titanium, and other metals have a wide range of commercial and advanced applications, including structural shapes, machine components, and medical devices. To choose the best material for a project, manufacturers must first understand how different metals respond to heat, pressure, electricity, chemical exposure, and weather. After completing Intro to Metals, users will know how various metals function in different environments, making them better equipped to select materials and tooling.
Number of Lessons 16
- Manufacturing Materials
- Physical Properties of Metals
- Mechanical Properties of Metals
- Metal Properties Review
- Crystal Structures
- Crystal Structures and Properties
- Grain Growth
- Grain Structures and Mechanical Properties
- Metal Structure Review
- Pure Metals and Alloys
- Ferrous and Nonferrous Metals
- Steel and Cast Iron
- Nonferrous Metals
- Ferrous and Nonferrous Review
- List the four types of manufacturing materials.
- Describe the physical properties of metals.
- Describe the mechanical properties of metals.
- Define the main types of metal crystal structures.
- Describe the properties found in each type of crystal structure.
- Describe grain growth.
- Describe the connection between grain structure and mechanical properties.
- Distinguish between pure metals and alloy metals.
- Distinguish between ferrous metals and nonferrous metals.
- Define steel and cast iron.
- Describe steel.
- List examples of nonferrous metals.
- Describe superalloys.
The most common classification in the United States for plain carbon steels and alloy steels. American Iron and Steel Institute (AISI) is an association responsible for setting standards and creating numbering systems for various ferrous metals, and the Society of Automotive Engineers (SAE) writes specifications and other data used in a broad range of industries.
A metal consisting of a mix of two or more elements, one of which must be a metal. Steel is an alloy of carbon and iron.
A nonferrous metal that is silvery white in color and lightweight. Aluminum resists corrosion and is a good conductor of electrical and thermal energy.
The steady heating of a metal above the recrystallization phase, followed by gradual cooling. Annealing can reduce hardness, improve machinablitiy, and facilitate cold working.
The smallest unit of an element. An atom consists of electrons orbiting around a center nucleus of protons and neutrons.
Body-centered cubic. The crystal structure that contains an atom in the center and one atom in each corner of a cube. BCC metals are often hard.
BCC. The crystal structure that contains an atom in the center and one atom in each corner of a cube. Body-centered cubic metals are often hard.
A material's unwillingness to be drawn, stretched, or formed. Brittle materials tend to fracture when subjected to these forces.
A manufacturing process that pours a liquid material into a hollow mold until the material cools into a solidified shape. Casting is often used to form metals that are difficult to machine.
An iron alloy usually containing more than 2% carbon, along with silicon and sulfur. Cast iron products are formed using molds and casting processes.
A hard, brittle material that can withstand high temperatures and resist corrosion. Ceramics include traditional materials such as brick and clay, as well as advanced ceramics used as abrasives and cutting tools.
Any metal shaping process that takes place when the metal is below its recrystallization temperature. Cold working adds certain properties to the metal, such as increased strength and improved surface finish.
A material made by combining materials from two or more of the following groups: metals, plastics, and ceramics. Composites can be laminar, particulate, or reinforced fibers.
The ability of a material to resist forces that attempt to squeeze or crush it. Compressive strength is the amount of compressive stress a material can withstand before fracturing.
A nonferrous metal that is very ductile, thermally and electrically conductive, and corrosion resistant. Copper is often used to make electrical wiring.
The gradual deterioration of a material due to atmosphere, moisture, chemicals, or other agents. Corrosion often appears on metal in the form of rust.
The ability of a material to resist deterioration and chemical breakdown due to surface exposure in a particular environment. Chromium and aluminum are materials with high corrosion resistance.
The regular, repeating pattern of atoms in a material. Metal crystal structures develop as the metal drops below the recrystallization temperature and solidifies.
The measure of a material's ability to be drawn, stretched, or formed without fracturing. Copper and aluminum are highly ductile metals.
The ability of a material to act as a medium for conveying electricity. Metals such as copper and aluminum have high levels of electrical conductivity.
A magnet formed from electric current. An electromagnet is typically formed by wrapping a current-carrying coil around an iron core.
A negatively charged particle that orbits the nucleus of an atom. Electrons are involved in chemical bonding and electrical conductivity.
FCC. The crystal structure that contains one atom in the center of the six sides of a cube and one atom in each corner of the cube. Face-centered cubic metals are often ductile.
Face-centered cubic. The crystal structure that contains one atom in the center of the six sides of a cube and one atom in each corner of the cube. FCC metals are often ductile.
A metal in which iron is the main ingredient. The main groups of ferrous metals are cast iron and steel.
An arrangement of atoms that creates a uniform, repeating structure. Grains are individual crystals in a metal.
A soft, black form of carbon. Excess carbon appears as flakes or spheres in cast irons and helps to dampen vibrations and improve machinability.
The ability of a metal to be hardened by heat treatments or other processes. Steels have varying degrees of hardenability, depending on their alloying elements.
The measure of a material's ability to resist penetration, indentation, and scratching. In some metals, the level of hardness can be controlled through heat treating.
Hexagonal close-packed. The crystal structure that contains a collection of atoms that are closely packed into the shape of a hexagon. HCP metals are often brittle.
The controlled heating and cooling process used to change the structure of a material and alter its physical and mechanical properties. Annealing, quenching, and tempering are heat treatments.
HCP. The crystal structure that contains a collection of atoms that are closely packed into the shape of a hexagon. Hexagonal close-packed metals are often brittle.
An expensive, complex metal alloy designed to perform under intense conditions, such as elevated temperatures. High-performance alloys are also known as superalloys.
A structural support with a cross section resembling an 'I.' I-beams are usually made of steel.
A nonferrous metal that is very soft, ductile, and heavy. Lead is a poor electrical conductor and is often used as a soldering alloy and sound dampener.
The power of attraction and repulsion that exists in materials. Magnetism most often occurs between metals.
A characteristic that describes how a material reacts when subjected to a force that attempts to stretch, compress, bend, dent, scratch, or break it. Ductility, hardness, and impact resistance are mechanical properties.
A naturally occurring material with high electric and thermal conductivity, luster, density, and strength. Examples of metal include copper, iron, nickel, and lead.
A metal that does not contain iron as the main ingredient. Aluminum, copper, and zinc are nonferrous metals.
A characteristic that describes a material's volumetric, thermal, electrical, and magnetic qualities. Physical properties describe how a material responds to forces other than mechanical forces.
A polymer material characterized by its light weight, high corrosion resistance, a high strength-to-weight ratio, and low melting point. Most plastics are easily shaped and formed.
A metal that does not intentionally contain any other material. Pure metals are usually used as alloying elements in commercial applications.
The soaking of a metal at a high temperature above the recrystallization phase, followed by rapid cooling. Water, saltwater, air, and oil are common quenching mediums.
The temperature at which new grains are formed in a metal. Every metal has a specific recrystallization temperature.
The ability of a material to resist forces that attempt to cause the internal structure to slide against itself and separate. Shear strength is the amount of shear force a material can withstand before fracturing.
A metal alloy that melts at relatively low temperatures and is used to join metal parts. Tin is commonly used as a soldering alloy.
A ferrous metal consisting of iron and carbon, usually with small amounts of manganese, phosphorus, sulfur, and silicon. Steel is a popular, inexpensive commercial metal.
A ferrous metal consisting of iron and carbon, usually with small amounts of manganese, phosphorus, sulfur, and silicon. Steels are popular, inexpensive commercial metals.
The ability of a material to resist forces that attempt to break or deform it. A material exhibits tensile, compression, or shear strength, depending on the deforming force.
An expensive, complex metal alloy designed to perform under intense conditions, such as elevated temperatures. Superalloys are also known as high performance alloys.
The heat treatment of metals to temperatures below the recrystallization phase, followed by gradual cooling. Tempering can increase a material's hardness.
The ability of a material to resist forces that attempt to pull apart or stretch it. Tensile strength is the amount of tensile stress a material can withstand before fracturing.
A physical property that indicates how well heat energy transfers through a material. Materials with low thermal conductivity make good heat insulators.
A nonferrous metal that is very soft. Tin is often used as a plating metal and soldering alloy.
A nonferrous metal that is lightweight, corrosion resistant, and has a high strength-to-weight ratio. Titanium is often used in the aerospace industry.