Advanced Thermoset Resins for Composites 130
This class covers the thermoset resins commonly used to create advanced composite parts, as well as their properties and general considerations for material selection.
Number of Lessons 15
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- Advanced Composite Materials
- Thermoset Resins for Advanced Composites
- Material Selection: Strength
- Material Selection: Toughness and Hardness
- Material Selection: Resistance to Creep and Cracking
- The Pros and Cons of Epoxy
- Cyanate Ester
- The Future of Advanced Thermosets
- Describe the materials used to create high-performance composite parts.
- Describe the properties of thermoset resins.
- Describe how material strength affects the properties of a composite part.
- Distinguish between toughness and hardness.
- Distinguish between creep and cracking.
- Describe epoxy resins for advanced composites.
- List the pros and cons of epoxy resins.
- Describe phenolic resins for advanced composites.
- Describe polyimide resins for advanced composites.
- Describe polyurethane resins for advanced composites.
- Describe silicone resins for advanced composites.
- Describe cyanate ester resins for advanced composites.
- Describe new developments in advanced thermoset resins.
Damage from repeated rubbing or scraping that is concentrated in the same place. Harder materials resist abrasions.
A composite made from specially formulated resins and high performance fibers. Advanced composites are used for applications that require a customized mixture of resins and reinforcements to produce specific properties in the composite.
An organic compound used as a hardening agent in epoxy resins. Amides form weaker bases than amines.
An organic compound derived from ammonia. Amines are used as hardening agents in epoxy resins.
A highly stable type of chemical used in phenolic resins. Aromatic compounds often have a strong odor.
A pressure vessel that promotes faster curing through a combination of vacuum and heat.
The first of two components that make up an epoxy. The base is essentially a resin.
The measure of a material's tendency to fracture from being drawn, stretched, or formed. As the rigidity of a material increases, brittleness increases as well.
A high-performance composite matrix made from oxide, carbide, nitride, or boride. Ceramic matrices can withstand extremely high temperatures and are used for specialized applications such as aerospace.
Visible fractures or points of separation on the surface of the composite. Cracking is one of the most common defects in composite parts.
The slow deformation of a material over time due to the presence of a constant load. Composites with a polymer matrix tend to be more vulnerable to creep than metal matrix or ceramic matrix composites.
The development of primary bonds between polymer molecules. Thermosets are heavily cross-linked, while thermoplastics are not cross-linked, or are cross-linked to a weaker degree.
A relatively new thermoset polymer that is sometimes used as a substitute for epoxy. Cyanate has better strength, thermal stability, and water resistance than epoxy.
The amount of time required to prepare, process, and cure composite materials in a mold. Polyurethane is valued for its relatively short cycle times.
DCPD. A chemical compound used enhance the properties of resins. Dicyclopentadiene is added to epoxy resins to increase their toughness and thermal stability.
The loss of energy in an electrically insulating material. A material with low dielectric loss dissipates a relatively low amount of heat when subjected to electrical current.
The most common thermoset polymer used for advanced composite resins. Epoxies are very tough and heat-resistant compared to other polymers.
A process during which strands of fiber are soaked in resin and wound around a core in the desired pattern.
The measure of a material's ability to flex or bend. Flexible materials are better able to absorb impact without breaking.
glass transition temperature
Tg. The temperature at which a rigid solid becomes pliable and can be formed, shaped, or molded. In general, a higher Tg allows for greater thermal stability and helps to prevent defects during the curing of a part.
A chemical that facilitates curing in resins. In epoxies, the hardening agent is usually an amine or an amide.
A material’s ability to resist deformation from impact. Composite materials are often rated according to a hardness scale in which a higher score indicates a harder material.
An ingredient used to facilitate chemical reactions.
Two or more layers of fibrous material that have been bonded together for strength. Composite parts are often made up of laminates.
The overall force applied to a material or structure. In a composite, the matrix transfers the load to the reinforcement fibers.
The main ingredient of the base of an epoxy.
The material that binds together the reinforcing fibers of a composite. Advanced composites use specially formulated resins as the matrix.
A high-performance composite matrix made from a metal or a metallic alloy. Metal matrices are extremely strong and are used for specialized applications such as aerospace.
Additional ingredients added to the base of an epoxy to change the viscosity of the resin.
A tiny inorganic particle used in advanced composites. Nanofillers improve the appearance and mechanical properties of composite parts.
An extremely small unit of measurement. One nanometer equals the size of a small molecule.
An aromatic compound used to create phenolic resins. Phenol has a strong odor and can be toxic in high concentrations.
A group of thermoset polymers derived from phenol. Phenolic resins are highly resistant to heat and fire.
A group of thermoset polymers with the highest heat resistance of all polymers. Polyimides are often used to make composite parts in the aerospace industry.
A long chain of very large molecules made up of many atoms. Thermoset polymers are preferred over thermoplastic polymers for advanced composite resins.
A thermoset polymer that was originally developed as a replacement for rubber. Polyurethane resins have low viscosity and rapid cure times, but they are not as heat-resistant as other thermosets.
A molding process in which heated resin cures as it is pulled through a die. Pultrusion is a variation of the extrusion process, during which resin is pushed through a die.
reinforced reaction injection molding
RRIM. A type of injection molding in which the resin and reinforcement are mixed together and injected into the mold at the same time.
The part of the composite that provides strength, stiffness, and the ability to carry a load. The reinforcement material used in advanced composites is often a high-performance fiber.
A substance made from either synthetic or natural polymers and used for composite matrices. In essence, a resin is a polymer that has not been processed into its final form.
resin transfer molding
RTM. A type of liquid molding in which resin held in a separate transfer chamber is added to the mold through pressurized injection. DCPD additives are ideal for epoxy resins used in resin transfer molding.
A hardness scale developed by Hugh and Stanley Rockwell in the early 1900s. Several other hardness scales exist, but the Rockwell scale is known for the speed and reliability of its testing methods.
A composite structure in which two stiff outer skins are bonded to a relatively thick but lightweight core.
The reduction in the size of a part after it has changed from a liquid to a solid. Phenolic resins have a high amount of shrinkage during curing.
A polymer that can exist in various forms. Silicone resins have good thermal stability.
A manual molding process during which an operator uses a spray machine to simultaneously apply resin and chopped fiberglass strands to an open mold.
The ability of a material to carry a load. In a composite, strength refers to the ability to carry a load in the preferred direction.
structural reaction injection molding
SRIM. A type of injection molding in which thermoset resin is injected into a preform and subjected to pressure and heat until it cures.
A polymer in which the molecules are not cross-linked, or they are cross-linked to a weaker degree. Thermoplastics can be melted and hardened repeatedly without changing their chemical structure.
A polymer that cannot be re-melted or reformed once it has cured. Thermosets have higher rigidity and better thermal stability than thermoplastics.
The measure of the composite's ability to absorb mechanical forces before it breaks. Increasing the amount of cross-linking in the resin creates a tougher composite.
A composite that uses a relatively consistent combination of resin and fiberglass reinforcement. Traditional composites are low-cost and are processed by traditional methods.
Having a high resistance to flow. Viscous fluids tend to be sticky or syrupy.
Gas that has changed to liquid form. Volatile condensation must be removed from composite parts before it becomes trapped in the resin in the form of voids and weakens the composite matrix.