The MAX Phase Thermal Properties Table

IIB	IIIA	IVA	VA	VIA
	Al	Si	P	S
	Ti₂AlC - Debye Temperature(from sound velocity): 732 - Thermal Conductivity: 33, Electronic Contribution: 20.5, Phonon Contribution: 12.5, V₂AlC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature(from heat capacity): 625 - Electronic Contribution: 29W•m/K - Cr₂AlC - Debye Temperature(from sound velocity): 644 - Thermal Conductivity: 23W•m/K - Phonon Contribution: 14W•m/K Nb₂AlC - Debye Temperature(from sound velocity): 577 - Thermal Conductivity: 29, Electronic Contribution: 19, Phonon Contribution: 10, Ta₂AlC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Ti₂AlN - Ti₃AlC₂ - Debye Temperature(from sound velocity): 758 - Thermal Conductivity: 40W•m/K - Phonon Contribution: 19W•m/K Ti₄AlN₃ - Thermal Expansion Coefficient: x10⁶/K - Debyte Temperature(from heat capacity): 779 - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Ta₄AlC₃ - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K	Ti₃SiC₂ - Debye Temperature(from sound velocity): 715-780 - Thermal Conductivity: 34, Electronic Contribution: 33W•m/K - V₂PC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Nb₂PC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K	Ti₂SC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Zr₂SC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Nb₂SC_0.4 - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Hf₂SC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K
Zn	Ga	Ge	As	Se
	Ti₂GaC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K V₂GaC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Cr₂GaC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Nb₂GaC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Mo₂GaC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Ta₂GaC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Ti₂GaN - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Cr₂GaN - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K V₂GaN - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K	Ti₂GeC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K V₂GeC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Cr₂GeC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Ti₃GeC₂ - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature(from heat capacity): 670 - Electronic Contribution: 38W•m/K - V₂AsC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Nb₂AsC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K
Cd	In	Sn	Sb	Te
Ti₂CdC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K	Sc₂InC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Ti₂InC - Zr₂InC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Nb₂InC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Hf₂InC - Ti₂InN - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Zr₂InN - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K	Ti₂SnC - Zr₂SnC - Nb₂SnC - Thermal Conductivity: 17.5W•m/K - Phonon Contribution: 0W•m/K Hf₂SnC - Hf₂SnN - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K
	Tl	Pb	Bi	Po
	Ti₂TlC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Zr₂TlC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Hf₂TlC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Zr₂TlN - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K	Ti₂PbC - Thermal Expansion Coefficient: x10⁶/K - Debye Temperature: - Thermal Conductivity: W•m/K - Electronic Contribution: W•m/K - Phonon Contribution: W•m/K Zr₂PbC - Hf₂PbC -

IIB

IIIA

IVA

VIA

Ti₂AlC

- Debye Temperature(from sound velocity): 732
- Thermal Conductivity: 33, Electronic Contribution: 20.5, Phonon Contribution: 12.5, V₂AlC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature(from heat capacity): 625
- Electronic Contribution: 29W•m/K
- Cr₂AlC - Debye Temperature(from sound velocity): 644
- Thermal Conductivity: 23W•m/K
- Phonon Contribution: 14W•m/K

Nb₂AlC

- Debye Temperature(from sound velocity): 577
- Thermal Conductivity: 29, Electronic Contribution: 19, Phonon Contribution: 10, Ta₂AlC - Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ti₂AlN

- Ti₃AlC₂ - Debye Temperature(from sound velocity): 758
- Thermal Conductivity: 40W•m/K
- Phonon Contribution: 19W•m/K

Ti₄AlN₃

- Thermal Expansion Coefficient: x10⁶/K
- Debyte Temperature(from heat capacity): 779
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ta₄AlC₃

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ti₃SiC₂

- Debye Temperature(from sound velocity): 715-780
- Thermal Conductivity: 34, Electronic Contribution: 33W•m/K
-

V₂PC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Nb₂PC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ti₂SC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Zr₂SC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Nb₂SC_0.4

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Hf₂SC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ti₂GaC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

V₂GaC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Cr₂GaC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Nb₂GaC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Mo₂GaC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ta₂GaC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ti₂GaN

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Cr₂GaN

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

V₂GaN

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ti₂GeC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

V₂GeC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Cr₂GeC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ti₃GeC₂

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature(from heat capacity): 670
- Electronic Contribution: 38W•m/K
-

V₂AsC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Nb₂AsC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ti₂CdC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Sc₂InC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ti₂InC

- Zr₂InC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Nb₂InC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Hf₂InC

- Ti₂InN - Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Zr₂InN

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ti₂SnC

- Zr₂SnC

- Nb₂SnC - Thermal Conductivity: 17.5W•m/K
- Phonon Contribution: 0W•m/K

Hf₂SnC

- Hf₂SnN - Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ti₂TlC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Zr₂TlC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Hf₂TlC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Zr₂TlN

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Ti₂PbC

- Thermal Expansion Coefficient: x10⁶/K
- Debye Temperature:
- Thermal Conductivity: W•m/K
- Electronic Contribution: W•m/K
- Phonon Contribution: W•m/K

Zr₂PbC

- Hf₂PbC