"Green strength" typically refers to the strength or integrity of a material or substance in its uncured or "green" state, particularly in the context of ceramics, polymers, and composites. This term is most commonly used in manufacturing and material science, particularly when discussing processes such as molding or forming before a material has undergone complete curing or hardening.

The Institut für Kunststoffverarbeitung (Institute for Plastics Processing), often abbreviated as IKV, is a research institution in Germany that specializes in the study and advancement of plastics processing technologies. Located in Aachen, the IKV is part of the RWTH Aachen University and serves as a hub for research, development, and education in the field of plastics engineering. The institute focuses on various aspects of plastics processing, including injection molding, extrusion, thermoforming, and additive manufacturing, among others.

An Ohmic contact is a type of electrical contact that allows current to flow easily in both directions with minimal resistance. It is characterized by a linear current-voltage (I-V) relationship, which means that the current flowing through the contact is directly proportional to the applied voltage. This behavior is in contrast to rectifying contacts, which only allow current to flow in one direction.

Liquidus and solidus are terms used in materials science, particularly in phase diagrams and the study of phase transitions in substances, especially alloys and melts. 1. **Liquidus**: The liquidus is the temperature above which a material is entirely in the liquid state. Below this temperature, solid phases begin to form as the material cools. In a phase diagram, the liquidus line represents the boundary between the fully liquid phase and the mixture of liquid and solid phases.

There are several software tools available for modeling nanostructures that cater to various aspects like electronic properties, molecular dynamics, geometry optimization, and more. Here are some of the popular options: 1. **Quantum ESPRESSO**: An integrated suite for electronic-structure calculations and materials modeling at the nanoscale based on density functional theory (DFT).

Low-Energy Ion Scattering (LEIS) is a surface analysis technique used to study the composition, structure, and properties of the outermost layers of solid materials. In LEIS, low-energy ions (typically in the range of a few keV) are directed at a sample surface. The interaction between the ions and the atoms in the surface leads to scattering events that can be analyzed to provide information about the surface composition and arrangement of atoms.

Material selection is the process of choosing appropriate materials for a specific application or product based on various criteria. It involves evaluating different materials based on their properties, performance, cost, availability, and environmental impact. The main objective of material selection is to ensure that the chosen materials meet the mechanical, thermal, electrical, and chemical requirements of the application, while also being cost-effective and sustainable.

Materials informatics is an interdisciplinary field that combines materials science, data science, and computational methods to accelerate the discovery, development, and optimization of materials. It utilizes techniques from machine learning, data mining, and statistical analysis to analyze large datasets related to materials properties, structures, and performance. Key aspects of materials informatics include: 1. **Data Collection and Management**: Gathering and organizing extensive datasets from experiments, simulations, and existing literature.

A Maxwell material is a type of viscoelastic material that exhibits both viscous and elastic behavior when subjected to deformation. It is named after the physicist James Clerk Maxwell, who developed a model to describe the complex behavior of materials that do not deform purely elastically (like rubber) or purely viscously (like honey).

Mechanically stimulated gas emission (MSGE) refers to the release of gases from materials or substances when they are subjected to mechanical forces, such as compression, tension, or shear. This phenomenon is often observed in various geological and environmental contexts, particularly in relation to the study of gas emissions from sediments, soils, or rock formations. In geological studies,MSGEs can be significant in understanding the behavior of gases, such as methane or carbon dioxide, that may be trapped within sediments or rocks.

Mesocrystals are a class of materials that are characterized by the ordered arrangement of nanoscale building blocks, typically formed by the self-assembly of nanoparticles. Unlike traditional crystals, which have a periodic arrangement of atoms or molecules throughout their entire structure, mesocrystals exhibit a hierarchical organization. This means that they consist of smaller crystallites or nanoparticles that are themselves ordered, but the overall arrangement can exhibit different properties compared to a single crystalline solid.

The Mohs scale is a scale of mineral hardness that was devised by Friedrich Mohs in 1812. It categorizes minerals based on their ability to scratch one another, with each mineral assigned a value from 1 to 10. The scale is ordinal, meaning that the numbers indicate a relative hardness but do not convey precise differences in hardness.

The Portevin–Le Chatelier (PLC) effect is a phenomenon observed in certain metallic alloys, particularly those that exhibit plastic deformation under applied stress. It is characterized by the occurrence of unstable plastic flow, leading to localized regions of deformation that can produce visible serrations or jerky flow in the stress-strain curve during tensile testing. The PLC effect is typically seen at specific temperature and strain rate conditions, often occurring in solid-solution-strengthened alloys.

NASLA typically refers to the National Association of State and Local Law Enforcement Agencies. This organization focuses on providing support, resources, and advocacy for law enforcement agencies across the United States. It works to enhance the effectiveness of law enforcement through training, research, and community engagement initiatives.

Transport, or transportation, refers to the movement of people, goods, and animals from one location to another. This process encompasses various modes and systems, including but not limited to: 1. **Modes of Transport**: - **Land Transport**: This includes vehicles traveling on roads and tracks, such as cars, buses, trucks, trains, bicycles, and motorcycles.

Particle aggregation refers to the process in which individual particles cluster together to form larger, often more complex structures. This phenomenon can occur in various contexts, including chemistry, physics, biology, and materials science, and can involve both solid and colloidal particles. ### Key Aspects of Particle Aggregation: 1. **Mechanism**: - Aggregation can occur through various mechanisms, including van der Waals forces, electrostatic attraction, hydrogen bonding, and hydrophobic interactions.

Physical metallurgy is a branch of metallurgy that focuses on understanding the physical and mechanical properties of metal materials and how these properties are influenced by their microstructure, composition, and processing methods. It combines principles from physics, materials science, and engineering to analyze how metals and alloys behave under various conditions. Key aspects of physical metallurgy include: 1. **Microstructure Analysis**: Examines the arrangement of atoms and phases within a metal or alloy.

A **pole figure** is a graphical representation used in materials science and crystallography to describe the preferred orientation of crystallites in a polycrystalline material. It provides a way of visualizing the anisotropy of the material by displaying how the orientations of crystallites are distributed in three-dimensional space, usually projected onto a two-dimensional plane. ### Key Concepts: 1. **Crystallographic Orientation**: In a polycrystalline material, individual grains can have different crystallographic orientations.

Plasma-facing materials (PFMs) are materials specifically designed to withstand the extreme conditions encountered in environments where they are exposed to plasma, such as in fusion reactors or plasma processing systems. These conditions include high temperatures, high particle fluxes, intense radiation, and chemical erosion due to reactive species in the plasma.

Retrogression heat treatment is a specialized thermal processing technique primarily used on certain aluminum alloys, especially those in the 2xxx and 7xxx series, which are heat-treatable alloys. The goal of retrogression is to enhance the mechanical properties of the aluminum, such as strength and toughness, by modifying the microstructure. ### Process Overview 1.