Deutsch: Polykristallines Material / Español: Material policristalino / Português: Material policristalino / Français: Matériau polycristallin / Italiano: Materiale policristallino
Polycrystalline material in the industrial and industry context refers to a substance made up of many crystallites or grains, which are small crystals of varying sizes and orientations. This type of material contrasts with single crystals, which are continuous and unbroken lattices extending across the entire structure, and amorphous materials, which have no crystalline structure at all.
Description
Polycrystalline materials are characterized by the presence of grain boundaries, which are the interfaces where different crystals meet. These boundaries affect the properties of the material, such as electrical and thermal conductivity, strength, and transparency. Polycrystalline materials are commonly found in metals, ceramics, and semiconductors. They are typically produced by allowing liquid material to solidify slowly or by compressing powder materials into a solid form.
Application Areas
Polycrystalline materials are utilized in various sectors due to their unique properties and cost-effectiveness:
- Solar Panels: Polycrystalline silicon is used in photovoltaic cells due to its effectiveness in converting sunlight into electricity and its lower cost compared to monocrystalline silicon.
- Metallurgy: Many industrial metals are polycrystalline, as this structure often enhances their strength and workability.
- Electronics: Polycrystalline materials are used in the production of certain semiconductor components where high purity is less critical.
- Ceramics: Used in applications ranging from construction materials to electronic insulators and bioceramics.
Well-Known Examples
Examples of polycrystalline materials in industry include:
- Polycrystalline Diamond (PCD): Used in cutting tools due to its extreme hardness and wear resistance.
- Polycrystalline silicon: Widely used in the solar panel industry for making solar cells.
- Tungsten carbide: Used in machining and mining equipment for its toughness and resistance to wear and high temperatures.
Treatment and Risks
Working with polycrystalline materials involves considerations such as:
- Manufacturing Control: The properties of polycrystalline materials can vary widely depending on the size and orientation of the crystals, requiring precise control during manufacturing.
- Material Handling: Polycrystalline materials may exhibit different fracture and fatigue characteristics than their single-crystal counterparts, influencing how they are handled in engineering applications.
- Cost-Effectiveness: While generally more cost-effective than single-crystal materials, the performance of polycrystalline materials may need to be carefully balanced with their cost benefits in specific applications.
Similar Terms
- Monocrystalline Material: Material consisting of a single, continuous crystal structure without grain boundaries, often used where high-performance material properties are critical.
- Amorphous Material: Lacks a defined crystal structure, typical of glasses and some plastic forms, where uniform properties throughout the material are necessary.
- Grain Boundaries: The interfaces between individual crystals in a polycrystalline material, crucial for understanding the material's mechanical, thermal, and electrical properties.
Summary
Polycrystalline materials are essential in a broad range of industrial applications, offering a balance between performance and cost. Their widespread use in sectors such as solar energy, electronics, and metallurgy highlights their importance in modern manufacturing and technology development.
--
Related Articles to the term 'Polycrystalline material' | |
'Fastener' at environment-database.eu | ■■■■■■■■■■ |
A fastener in the environmental context refers to any component used to securely join, connect, or attach . . . Read More | |
'Thin-film silicon' | ■■■■■■■■■■ |
Thin-film silicon in the industrial and industry context refers to a form of silicon that is deposited . . . Read More | |
'Shortage' | ■■■■■■■■ |
Shortage in an industrial context refers to a situation where the demand for a particular resource, material, . . . Read More | |
'Non-crystalline carbon' | ■■■■■■■■ |
Non-crystalline carbon in the industrial context refers to forms of carbon that do not have a regular . . . Read More | |
'Semi-crystalline polymer' | ■■■■■■■■ |
Semi-crystalline polymer: A semi-crystalline polymer in the industrial and industry context refers to . . . Read More | |
'Matrix' | ■■■■■■■ |
Matrix in the industrial and industry context refers to a variety of concepts, depending on the specific . . . Read More | |
'Coordination' at psychology-lexicon.com | ■■■■■■■ |
In psychology, coordination refers to the ability to efficiently organize and align one’s thoughts, . . . Read More | |
'Conveyance' | ■■■■■■■ |
Conveyance in the industrial context refers to the process or system of transporting materials, goods, . . . Read More | |
'Metallurgy' | ■■■■■■■ |
Metallurgy in the industrial and industry context refers to the science and technology of metals, encompassing . . . Read More | |
'Setup' at travel-glossary.com | ■■■■■■■ |
Setup in the travel context refers to the process of arranging and preparing all necessary components . . . Read More |