(Ti1/3Nb1/3Ta1/3)2AlC Medium-entropy MAX phase ceramic material (Type 211)
SKU: 83464271100

(Ti1/3Nb1/3Ta1/3)2AlC Medium-entropy MAX phase ceramic material (Type 211)

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Description

(Ti1/3Nb1/3Ta1/3)2AlC Medium-entropy MAX phase ceramic material (Type 211)Product Name Name: Ti1 3Nb1 3Ta1 3)2AlC Medium entropy MAX phase ceramic material (Type 211) Product Overview The MAX phase is A ternary layered ceramic material, where M is a transition metal element, A is mainly a third and fourth main group element, and X is carbon or nitrogen. The crystal unit arrangement of this material is hexagonal structure, and the space point group is P63 mmc, where the M atomic layer and the A atomic layer are alternately

Product Name

Name:Ti1/3Nb1/3Ta1/3)2AlC Medium-entropy MAX phase ceramic material (Type 211)

Product Overview

The MAX phase is A ternary layered ceramic material, where M is a transition metal element, A is mainly a third and fourth main group element, and X is carbon or nitrogen. The crystal unit arrangement of this material is hexagonal structure, and the space point group is P63/mmc, where the M atomic layer and the A atomic layer are alternately arranged to form a layered structure similar to the close-packed hexagonal structure, and the X atom is filled in the gap position of the octahedron. Where M is the pre-transition metal element, A is the main group element, X is the carbon or nitrogen element, n= 1,2,3, so it is referred to as the MAX phase. When n=1, it is 211 phases, such as Ti2AlC and Ti2SiC; When n=2, it is 312 phases, such as Ti3SiC2 and Ti3AlC2; When n=3, it is called 413 phase, such as Ti4AlN3. High entropy is a material design concept developed from high entropy alloys, first proposed in 2004. MAX phase materials usually have similar physical and chemical properties due to their M, A and X position elements located in the same family or adjacent positions, and have adjustable composition. High entropy of MAX phase materials can be made by solid solution of 3 to 5 elements at M or A position in the same system. In addition, the slow diffusion effect caused by high entropy will also affect the mechanical properties of MAX phase high entropy materials. The main preparation methods of high entropy MAX phase ceramics are hot pressing sintering, discharge plasma sintering, self-propagating high temperature synthesis, hot isostatic pressing and mechanical alloying.

Technical Parameter

Status:Black powder

Lateral size:2-35 um

Purity:gt;90wt%

Product Features

High-entropy structure: High-entropy MAX phase ceramics are characterized by a high-entropy structure, which means that it is composed of multiple elements mixed in equal or near-equal atomic proportions. This high entropy structure gives it high hardness, oxidation resistance and high temperature stability.

Nano-layered structure: Similar to traditional MAX phase ceramics, high-entropy MAX phase ceramics also have a nano-layered structure. This structure consists of alternating layers of metal and carbon (or nitrogen), giving the material good mechanical properties and machinability.

Application Fields

Aerospace field: High entropy MAX phase ceramics have excellent high temperature stability, oxidation resistance and ablative resistance, and can be used to manufacture aircraft engine hot end components, rocket nozzles and so on.

Chemical field: The corrosion resistance of high-entropy MAX phase ceramics makes it suitable for chemical equipment, such as pipes, valves, pumps, etc.

Electronic field: Some high-entropy MAX phase ceramics have good electrical and thermal conductivity, and can be used for electronic packaging and heat dissipation materials.

Nuclear energy field: high entropy MAX phase ceramics have good stability under high temperature and irradiation environment, and can be used as structural materials and coatings in the nuclear energy field

Related Information

Please e-mail for the detailed characterization data.

E-mail:[email protected]

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SKU: 83464271100

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Kids who are Minecraft fans will love Scott Charles’ Trapped in Class, Book 1 of the Video Game Elementary series. Connor is a fourth grader at Video Game Elementary, an online elementary school built inside a fully immersive virtual reality video game. Connor’s watching the clock, waiting for school to end so he can go to his first practice with the Swords Team when suddenly there’s a strange hiss, bleep, crack, and the world fades into white. The next thing Connor knows, it’s morning again. Like some weird, middle school version of Groundhog’s Day, the day has restarted. Stuck in a time loop, Connor must fight Fanged Slime, Vampire Mold, and other monsters to keep the school’s power crystals from being destroyed. Luckily, he has a school custodian, a friend named Glitch, a girls who’s very good at hacking the system, and a cleaning ghost with an attitude to help him. This book is easy to read and action packed. It should be a great hit with kids who’d rather hold a game controller than a book. I received an arc for free and am leaving my review voluntarily.
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My kids loved it as much as I did!
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The kids and I thought it was great fun
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Just another good piece to add to my collection. Awesome was excited to get it.
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Poor quality. Very disappointing
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The product said in good shape. This is not good shape. Product is damaged and held together by tape
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