Table Of ContentPhase Equilibria, Crystallographic and Thermodynamic Data of Binary Alloys 1
Index of substances for subvolumes IV/12A and IV/5
Ac–Ag Ag–Hf Ag–Sr Al–Hg Al–Ti
Ac–Au Ag–Hg Ag–Ta Al–Ho Al–Tl
Ac–B Ag–Ho Ag–Tb Al–In Al–Tm
Ac–Cr Ag–I Ag–Tc Al–Ir Al–U
Ac–Cu Ag–In Ag–Te Al–K Al–V
Ac–H Ag–Ir Ag–Th Al–La Al–W
Ac–Hg Ag–K Ag–Ti Al–Li Al–Y
Ac–Mg Ag–Kr Ag–Tl Al–Lu Al–Yb
Ac–Mo Ag–La Ag–Tm Al–Mg Al–Zn
Ac–O Ag–Li Ag–U Al–Mn Al–Zr
Ac–Pt Ag–Lu Ag–V Al–Mo
Ac–S Ag–Mg Ag–W Al–N Am–Al
Ag–Mn Ag–Xe Al–Na Am–As
Ag–Ac Ag–Mo Ag–Y Al–Nb Am–B
Ag–Al Ag–N Ag–Yb Al–Nd Am–Be
Ag–Ar Ag–Na Ag–Zn Al–Ni Am–Bi
Ag–As Ag–Nb Ag–Zr Al–Np Am–C
Ag–At Ag–Nd Al–O Am–Co
Ag–Au Ag–Ni Al–Ag Al–Os Am–Cr
Ag–B Ag–O Al–Am Al–P Am–Cu
Ag–Ba Ag–Os Al–As Al–Pb Am–Fe
Ag–Be Ag–P Al–Au Al–Pd Am–H
Ag–Bi Ag–Pa Al–B Al–Pm Am–Hg
Ag–C Ag–Pb Al–Ba Al–Pr Am–Ir
Ag–Ca Ag–Pd Al–Be Al–Pt Am–La
Ag–Cd Ag–Pm Al–Bi Al–Pu Am–Mo
Ag–Ce Ag–Po Al–C Al–Rb Am–N
Ag–Cl Ag–Pr Al–Ca Al–Re Am–Ni
Ag–Co Ag–Pt Al–Cd Al–Rh Am–Np
Ag–Cr Ag–Pu Al–Ce Al–Ru Am–O
Ag–Cs Ag–Ra Al–Co Al–S Am–Os
Ag–Cu Ag–Rb Al–Cr Al–Sb Am–P
Ag–Dy Ag–Re Al–Cs Al–Sc Am–Pd
Ag–Er Ag–Rh Al–Cu Al–Se Am–Pt
Ag–Eu Ag–Rn Al–Dy Al–Si Am–Pu
Ag–F Ag–Ru Al–Er Al–Sm Am–Rh
Ag–Fe Ag–S Al–Eu Al–Sn Am–Ru
Ag–Fr Ag–Sb Al–Fe Al–Sr Am–S
Ag–Ga Ag–Sc Al–Ga Al–Ta Am–Sb
Ag–Gd Ag–Se Al–Gd Al–Tb Am–Se
Ag–Ge Ag–Si Al–Ge Al–Tc Am–Si
Ag–H Ag–Sm Al–H Al–Te Am–Te
Ag–He Ag–Sn Al–Hf Al–Th Am–U
Landolt-Börnstein
New Series IV/12A
Supplement to IV/5A
Phase Equilibria, Crystallographic and Thermodynamic Data of Binary Alloys 2
Ar–Ag As–Pa Au–Cl Au–Sb B–Li
Ar–Au As–Pb Au–Co Au–Sc B–Lu
Ar–Be As–Pd Au–Cr Au–Se B–Mg
Ar–Mg As–Pr Au–Cs Au–Si B–Mn
Ar–Mo As–Pt Au–Cu Au–Sm B–Mo
As–Pu Au–Dy Au–Sn B–N
As–Ag As–Rb Au–Er Au–Sr B–Na
As–Al As–Re Au–Eu Au–Ta B–Nb
As–Am As–Rh Au–F Au–Tb B–Nd
As–Au As–Ru Au–Fe Au–Tc B–Ni
As–B As–S Au–Fr Au–Te B–Np
As–Ba As–Sb Au–Ga Au–Th B–O
As–Be As–Sc Au–Gd Au–Ti B–Os
As–Bi As–Se Au–Ge Au–Tl B–P
As–Bk As–Si Au–H Au–Tm B–Pa
As–C As–Sm Au–He Au–U B–Pb
As–Ca As–Sn Au–Hf Au–V B–Pd
As–Cd As–Sr Au–Hg Au–W B–Pm
As–Ce As–Ta Au–Ho Au–Xe B–Pr
As–Cf As–Tb Au–I Au–Y B–Pt
As–Cm As–Tc Au–In Au–Yb B–Pu
As–Co As–Te Au–Ir Au–Zn B–Re
As–Cr As–Th Au–K Au–Zr B–Rh
As–Cs As–Ti Au–Kr B–Ru
As–Cu As–Tl Au–La B–Ac B–S
As–Dy As–Tm Au–Li B–Ag B–Sb
As–Er As–U Au–Lu B–Al B–Sc
As–Eu As–V Au–Mg B–Am B–Se
As–Fe As–W Au–Mn B–As B–Si
As–Ga As–Y Au–Mo B–Au B–Sm
As–Gd As–Yb Au–N B–Ba B–Sn
As–Ge As–Zn Au–Na B–Be B–Sr
As–H As–Zr Au–Nb B–Bi B–Ta
As–Hf Au–Nd B–C B–Tb
As–Hg At–Ag Au–Ni B–Ca B–Tc
As–Ho At–Au Au–Np B–Cd B–Th
As–In At–Hg Au–O B–Ce B–Ti
As–Ir At–Mo Au–Os B–Co B–Tl
As–K Au–P B–Cr B–Tm
As–La Au–Ac Au–Pa B–Cu B–U
As–Li Au–Ag Au–Pb B–Dy B–V
As–Lu Au–Al Au–Pd B–Er B–W
As–Mg Au–Ar Au–Pm B–Eu B–Y
As–Mn Au–As Au–Po B–Fe B–Yb
As–Mo Au–At Au–Pr B–Ga B–Zn
As–N Au–B Au–Pt B–Gd B–Zr
As–Na Au–Ba Au–Pu B–Ge
As–Nb Au–Be Au–Ra B–H Ba–Ag
As–Nd Au–Bi Au–Rb B–Hf Ba–Al
As–Ni Au–Br Au–Re B–Hg Ba–As
As–Np Au–C Au–Rh B–Ho Ba–Au
As–O Au–Ca Au–Rn B–In Ba–B
As–Os Au–Cd Au–Ru B–Ir Ba–Be
As–P Au–Ce Au–S B–La Ba–Bi
Landolt-Börnstein
New Series IV/12A
Supplement to IV/5A
Phase Equilibria, Crystallographic and Thermodynamic Data of Binary Alloys 3
Ba–Br Be–Ag Be–Re Bi–Ho Bk–As
Ba–C Be–Al Be–Rh Bi–I Bk–H
Ba–Ca Be–Am Be–Ru Bi–In Bk–Mo
Ba–Cd Be–Ar Be–S Bi–Ir Bk–Pt
Ba–Cl Be–As Be–Sb Bi–K
Ba–Cs Be–Au Be–Sc Bi–La Br–Au
Ba–Cu Be–B Be–Se Bi–Li Br–Ba
Ba–Eu Be–Ba Be–Si Bi–Lu Br–Bi
Ba–F Be–Bi Be–Sm Bi–Mg Br–Ca
Ba–Fe Be–C Be–Sn Bi–Mn Br–Cd
Ba–Ga Be–Ca Be–Sr Bi–Mo Br–Cf
Ba–Ge Be–Cd Be–Ta Bi–N Br–Cs
Ba–H Be–Ce Be–Tb Bi–Na Br–In
Ba–Hg Be–Cm Be–Tc Bi–Nb Br–K
Ba–I Be–Co Be–Te Bi–Nd Br–Mo
Ba–In Be–Cr Be–Th Bi–Ni Br–Na
Ba–K Be–Cs Be–Ti Bi–O Br–Rb
Ba–La Be–Cu Be–Tm Bi–Os Br–Sc
Ba–Li Be–Dy Be–U Bi–P Br–Sr
Ba–Mg Be–Er Be–V Bi–Pb Br–Te
Ba–Mn Be–Eu Be–W Bi–Pd
Ba–Mo Be–Fe Be–Y Bi–Po C–Ag
Ba–N Be–Ga Be–Yb Bi–Pr C–Al
Ba–Na Be–Gd Be–Zn Bi–Pt C–Am
Ba–Nd Be–Ge Be–Zr Bi–Pu C–As
Ba–Ni Be–H Bi–Rb C–Au
Ba–O Be–Hf Bi–Ag Bi–Re C–B
Ba–P Be–Hg Bi–Al Bi–Rh C–Ba
Ba–Pb Be–Ho Bi–Am Bi–Ru C–Be
Ba–Pd Be–In Bi–As Bi–S C–Ca
Ba–Po Be–Ir Bi–Au Bi–Sb C–Cd
Ba–Pr Be–K Bi–B Bi–Sc C–Ce
Ba–Pt Be–La Bi–Ba Bi–Se C–Co
Ba–Pu Be–Li Bi–Be Bi–Si C–Cr
Ba–Rb Be–Lu Bi–Br Bi–Sm C–Cs
Ba–Rh Be–Mg Bi–Ca Bi–Sn C–Cu
Ba–S Be–Mn Bi–Cd Bi–Sr C–Dy
Ba–Sb Be–Mo Bi–Ce Bi–Ta C–Er
Ba–Sc Be–N Bi–Cl Bi–Tb C–Eu
Ba–Se Be–Na Bi–Cm Bi–Te C–Fe
Ba–Si Be–Nb Bi–Co Bi–Th C–Gd
Ba–Sm Be–Nd Bi–Cr Bi–Ti C–Ge
Ba–Sn Be–Ni Bi–Cs Bi–Tl C–Hf
Ba–Sr Be–Np Bi–Cu Bi–Tm C–Hg
Ba–Tb Be–O Bi–Dy Bi–U C–Ho
Ba–Te Be–Os Bi–Er Bi–V C–Ir
Ba–Ti Be–P Bi–Eu Bi–W C–K
Ba–Tl Be–Pa Bi–Fe Bi–Xe C–La
Ba–Tm Be–Pd Bi–Ga Bi–Y C–Li
Ba–V Be–Pm Bi–Gd Bi–Yb C–Lu
Ba–Y Be–Po Bi–Ge Bi–Zn C–Mg
Ba–Yb Be–Pr Bi–H Bi–Zr C–Mn
Ba–Zn Be–Pt Bi–Hf C–Mo
Be–Pu Bi–Hg C–Na
Landolt-Börnstein
New Series IV/12A
Supplement to IV/5A
Phase Equilibria, Crystallographic and Thermodynamic Data of Binary Alloys 4
C–Nb Ca–Dy Ca–Yb Cd–Pt Ce–Ir
C–Nd Ca–Er Ca–Zn Cd–Pu Ce–La
C–Ni Ca–Eu Cd–Rb Ce–Lu
C–Np Ca–F Cd–Ag Cd–Rh Ce–Mg
C–Os Ca–Fe Cd–Al Cd–S Ce–Mn
C–Pa Ca–Ga Cd–As Cd–Sb Ce–Mo
C–Pb Ca–Gd Cd–Au Cd–Sc Ce–N
C–Pd Ca–Ge Cd–B Cd–Se Ce–Na
C–Po Ca–H Cd–Ba Cd–Si Ce–Nb
C–Pr Ca–Hg Cd–Be Cd–Sm Ce–Nd
C–Pt Ca–I Cd–Bi Cd–Sn Ce–Ni
C–Pu Ca–In Cd–Br Cd–Sr Ce–O
C–Rb Ca–Ir Cd–C Cd–Tb Ce–Os
C–Re Ca–K Cd–Ca Cd–Tc Ce–P
C–Rh Ca–La Cd–Ce Cd–Te Ce–Pb
C–Ru Ca–Li Cd–Cl Cd–Th Ce–Pd
C–Sb Ca–Lu Cd–Co Cd–Ti Ce–Pm
C–Sc Ca–Mg Cd–Cr Cd–Tl Ce–Po
C–Se Ca–Mn Cd–Cs Cd–Tm Ce–Pr
C–Si Ca–Mo Cd–Cu Cd–U Ce–Pt
C–Sm Ca–N Cd–Dy Cd–V Ce–Pu
C–Sr Ca–Na Cd–Er Cd–Y Ce–Re
C–Ta Ca–Nb Cd–Eu Cd–Yb Ce–Rh
C–Tb Ca–Nd Cd–Fe Cd–Zn Ce–Ru
C–Tc Ca–Ni Cd–Ga Cd–Zr Ce–S
C–Th Ca–O Cd–Gd Ce–Sb
C–Ti Ca–P Cd–Ge Ce–Ag Ce–Sc
C–Tl Ca–Pb Cd–H Ce–Al Ce–Se
C–Tm Ca–Pd Cd–Hf Ce–As Ce–Si
C–U Ca–Pm Cd–Hg Ce–Au Ce–Sm
C–V Ca–Po Cd–Ho Ce–B Ce–Sn
C–W Ca–Pr Cd–I Ce–Be Ce–Ta
C–Y Ca–Pt Cd–In Ce–Bi Ce–Tb
C–Yb Ca–Pu Cd–K Ce–C Ce–Te
C–Zn Ca–Rb Cd–Kr Ce–Ca Ce–Th
C–Zr Ca–Rh Cd–La Ce–Cd Ce–Ti
Ca–S Cd–Li Ce–Cl Ce–Tl
Ca–Ag Ca–Sb Cd–Lu Ce–Co Ce–Tm
Ca–Al Ca–Sc Cd–Mg Ce–Cr Ce–U
Ca–As Ca–Se Cd–Mn Ce–Cu Ce–V
Ca–Au Ca–Si Cd–Mo Ce–Dy Ce–Y
Ca–B Ca–Sm Cd–N Ce–Er Ce–Yb
Ca–Ba Ca–Sn Cd–Na Ce–Eu Ce–Zn
Ca–Be Ca–Sr Cd–Nb Ce–F Ce–Zr
Ca–Bi Ca–Tb Cd–Nd Ce–Fe
Ca–Br Ca–Te Cd–Ni Ce–Ga Cf–As
Ca–C Ca–Ti Cd–Np Ce–Gd Cf–Br
Ca–Cd Ca–Tl Cd–O Ce–Ge Cf–Mo
Ca–Ce Ca–Tm Cd–P Ce–H Cf–O
Ca–Cl Ca–U Cd–Pb Ce–Hf Cf–Pt
Ca–Co Ca–V Cd–Pd Ce–Hg Cf–S
Ca–Cr Ca–W Cd–Pm Ce–Ho Cf–Sb
Ca–Cs Ca–Y Cd–Po Ce–I
Ca–Cu Cd–Pr Ce–In
Landolt-Börnstein
New Series IV/12A
Supplement to IV/5A
Phase Equilibria, Crystallographic and Thermodynamic Data of Binary Alloys 5
Cl–Ag Co–Cd Co–Tl Cr–O Cs–Hf
Cl–Au Co–Ce Co–Tm Cr–Os Cs–Hg
Cl–Ba Co–Cr Co–U Cr–P Cs–I
Cl–Bi Co–Cu Co–V Cr–Pb Cs–In
Cl–Ca Co–Dy Co–W Cr–Pd Cs–Ir
Cl–Cd Co–Er Co–Y Cr–Pr Cs–K
Cl–Ce Co–Fe Co–Yb Cr–Pt Cs–Li
Cl–Cs Co–Ga Co–Zn Cr–Pu Cs–Mg
Cl–Dy Co–Gd Co–Zr Cr–Ra Cs–Mo
Cl–Er Co–Ge Cr–Rb Cs–N
Cl–Gd Co–H Cr–Ac Cr–Re Cs–Na
Cl–Hg Co–Hf Cr–Ag Cr–Rh Cs–Nb
Cl–In Co–Hg Cr–Al Cr–Ru Cs–O
Cl–K Co–Ho Cr–Am Cr–S Cs–Os
Cl–La Co–In Cr–As Cr–Sb Cs–P
Cl–Mo Co–Ir Cr–Au Cr–Sc Cs–Pb
Cl–Na Co–K Cr–B Cr–Se Cs–Pd
Cl–Nd Co–La Cr–Be Cr–Si Cs–Pr
Cl–Ni Co–Li Cr–Bi Cr–Sm Cs–Pt
Cl–Pd Co–Lu Cr–C Cr–Sn Cs–Rb
Cl–Rb Co–Mg Cr–Ca Cr–Ta Cs–Rh
Cl–Sc Co–Mn Cr–Cd Cr–Tb Cs–Ru
Cl–Sn Co–Mo Cr–Ce Cr–Tc Cs–S
Cl–Sr Co–N Cr–Cm Cr–Te Cs–Sb
Cl–Te Co–Na Cr–Co Cr–Th Cs–Se
Cl–Th Co–Nb Cr–Cs Cr–Ti Cs–Sn
Cl–Tl Co–Nd Cr–Cu Cr–Tm Cs–Sr
Cl–Tm Co–Ni Cr–Dy Cr–U Cs–Te
Cl–Y Co–Np Cr–Er Cr–V Cs–Ti
Cl–Yb Co–O Cr–Eu Cr–W Cs–Tl
Co–Os Cr–Fe Cr–Y Cs–V
Cm–As Co–P Cr–Ga Cr–Yb Cs–Zn
Cm–Be Co–Pb Cr–Gd Cr–Zn Cs–Zr
Cm–Bi Co–Pd Cr–Ge Cr–Zr
Cm–Cr Co–Pr Cr–H Cu–Ac
Cm–Ir Co–Pt Cr–Hf Cs–Ag Cu–Ag
Cm–Mo Co–Pu Cr–Hg Cs–Al Cu–Al
Cm–N Co–Re Cr–Ho Cs–As Cu–Am
Cm–O Co–Rh Cr–I Cs–Au Cu–As
Cm–Pd Co–Ru Cr–In Cs–Ba Cu–Au
Cm–Pt Co–S Cr–Ir Cs–Be Cu–B
Cm–Rh Co–Sb Cr–K Cs–Bi Cu–Ba
Cm–Si Co–Sc Cr–La Cs–Br Cu–Be
Co–Se Cr–Li Cs–C Cu–Bi
Co–Ag Co–Si Cr–Lu Cs–Ca Cu–C
Co–Al Co–Sm Cr–Mg Cs–Cd Cu–Ca
Co–Am Co–Sn Cr–Mn Cs–Cl Cu–Cd
Co–As Co–Sr Cr–Mo Cs–Cr Cu–Ce
Co–Au Co–Ta Cr–N Cs–Cu Cu–Co
Co–B Co–Tb Cr–Na Cs–F Cu–Cr
Co–Be Co–Tc Cr–Nb Cs–Fe Cu–Cs
Co–Bi Co–Te Cr–Nd Cs–Ga Cu–Dy
Co–C Co–Th Cr–Ni Cs–Ge Cu–Er
Co–Ca Co–Ti Cr–Np Cs–H Cu–Eu
Landolt-Börnstein
New Series IV/12A
Supplement to IV/5A
Phase Equilibria, Crystallographic and Thermodynamic Data of Binary Alloys 6
Cu–Fe Cu–Tl Dy–Re Er–Mg Eu–C
Cu–Ga Cu–Tm Dy–Rh Er–Mn Eu–Ca
Cu–Gd Cu–U Dy–Ru Er–Mo Eu–Cd
Cu–Ge Cu–V Dy–S Er–N Eu–Ce
Cu–H Cu–W Dy–Sb Er–Nb Eu–Cr
Cu–Hf Cu–Y Dy–Se Er–Nd Eu–Cu
Cu–Hg Cu–Yb Dy–Si Er–Ni Eu–Fe
Cu–Ho Cu–Zn Dy–Sm Er–O Eu–Ga
Cu–I Cu–Zr Dy–Sn Er–Os Eu–Ge
Cu–In Dy–Ta Er–P Eu–H
Cu–Ir Dy–Ag Dy–Tb Er–Pb Eu–Hf
Cu–K Dy–Al Dy–Tc Er–Pd Eu–Hg
Cu–La Dy–As Dy–Te Er–Pm Eu–Ho
Cu–Li Dy–Au Dy–Th Er–Po Eu–In
Cu–Lu Dy–B Dy–Ti Er–Pr Eu–Ir
Cu–Mg Dy–Be Dy–Tl Er–Pt Eu–La
Cu–Mn Dy–Bi Dy–Tm Er–Pu Eu–Mg
Cu–Mo Dy–C Dy–U Er–Re Eu–Mn
Cu–N Dy–Ca Dy–V Er–Rh Eu–Mo
Cu–Na Dy–Cd Dy–W Er–Ru Eu–N
Cu–Nb Dy–Ce Dy–Y Er–S Eu–Nb
Cu–Nd Dy–Cl Dy–Yb Er–Sb Eu–Ni
Cu–Ni Dy–Co Dy–Zn Er–Sc Eu–O
Cu–Np Dy–Cr Dy–Zr Er–Se Eu–P
Cu–O Dy–Cu Er–Si Eu–Pb
Cu–Os Dy–Er Er–Ag Er–Sm Eu–Pd
Cu–P Dy–Fe Er–Al Er–Sn Eu–Po
Cu–Pa Dy–Ga Er–As Er–Ta Eu–Pt
Cu–Pb Dy–Gd Er–Au Er–Tb Eu–Pu
Cu–Pd Dy–Ge Er–B Er–Tc Eu–Re
Cu–Pm Dy–H Er–Be Er–Te Eu–S
Cu–Po Dy–Hg Er–Bi Er–Th Eu–Sb
Cu–Pr Dy–Ho Er–C Er–Ti Eu–Sc
Cu–Pt Dy–I Er–Ca Er–Tl Eu–Se
Cu–Pu Dy–In Er–Cd Er–Tm Eu–Si
Cu–Ra Dy–Ir Er–Ce Er–U Eu–Sm
Cu–Rb Dy–La Er–Cl Er–V Eu–Sn
Cu–Re Dy–Lu Er–Co Er–W Eu–Ta
Cu–Rh Dy–Mg Er–Cr Er–Y Eu–Te
Cu–Ru Dy–Mn Er–Cu Er–Yb Eu–Th
Cu–S Dy–Mo Er–Dy Er–Zn Eu–Ti
Cu–Sb Dy–N Er–Fe Er–Zr Eu–Tl
Cu–Sc Dy–Nd Er–Ga Eu–U
Cu–Se Dy–Ni Er–Gd Es–Mo Eu–V
Cu–Si Dy–O Er–Ge Es–O Eu–W
Cu–Sm Dy–Os Er–H Eu–Y
Cu–Sn Dy–P Er–Hf Eu–Ag Eu–Yb
Cu–Sr Dy–Pb Er–Hg Eu–Al Eu–Zn
Cu–Ta Dy–Pd Er–Ho Eu–As Eu–Zr
Cu–Tb Dy–Pm Er–I Eu–Au
Cu–Tc Dy–Po Er–In Eu–B F–Ag
Cu–Te Dy–Pr Er–Ir Eu–Ba F–Au
Cu–Th Dy–Pt Er–La Eu–Be F–Ba
Cu–Ti Dy–Pu Er–Lu Eu–Bi F–Ca
Landolt-Börnstein
New Series IV/12A
Supplement to IV/5A
Phase Equilibria, Crystallographic and Thermodynamic Data of Binary Alloys 7
F–Ce Fe–Nd Ga–Bi Ga–Ta Gd–Pd
F–Cs Fe–Ni Ga–Ca Ga–Tb Gd–Pm
F–In Fe–Np Ga–Cd Ga–Te Gd–Po
F–K Fe–O Ga–Ce Ga–Th Gd–Pt
F–Li Fe–Os Ga–Co Ga–Ti Gd–Pu
F–Mg Fe–P Ga–Cr Ga–Tl Gd–Re
F–Mo Fe–Pb Ga–Cs Ga–Tm Gd–Rh
F–Na Fe–Pd Ga–Cu Ga–U Gd–Sb
F–Ni Fe–Pm Ga–Dy Ga–V Gd–Sc
F–Rb Fe–Pr Ga–Er Ga–W Gd–Se
F–Sm Fe–Pt Ga–Eu Ga–Y Gd–Si
F–Sn Fe–Pu Ga–Fe Ga–Yb Gd–Sm
F–Yb Fe–Rb Ga–Gd Ga–Zn Gd–Sn
Fe–Re Ga–Ge Ga–Zr Gd–Ta
Fe–Ag Fe–Rh Ga–Hf Gd–Tb
Fe–Al Fe–Ru Ga–Hg Gd–Ag Gd–Tc
Fe–Am Fe–S Ga–Ho Gd–Al Gd–Te
Fe–As Fe–Sb Ga–I Gd–As Gd–Th
Fe–Au Fe–Sc Ga–In Gd–Au Gd–Ti
Fe–B Fe–Se Ga–Ir Gd–B Gd–Tl
Fe–Ba Fe–Si Ga–K Gd–Be Gd–Tm
Fe–Be Fe–Sm Ga–La Gd–Bi Gd–U
Fe–Bi Fe–Sn Ga–Li Gd–C Gd–V
Fe–C Fe–Sr Ga–Lu Gd–Ca Gd–W
Fe–Ca Fe–Ta Ga–Mg Gd–Cd Gd–Y
Fe–Cd Fe–Tb Ga–Mn Gd–Ce Gd–Yb
Fe–Ce Fe–Tc Ga–Mo Gd–Cl Gd–Zn
Fe–Co Fe–Te Ga–N Gd–Co
Fe–Cr Fe–Th Ga–Na Gd–Cr Ge–Ag
Fe–Cs Fe–Ti Ga–Nb Gd–Cu Ge–Al
Fe–Cu Fe–Tl Ga–Nd Gd–Dy Ge–As
Fe–Dy Fe–Tm Ga–Ni Gd–Er Ge–Au
Fe–Er Fe–U Ga–Np Gd–Fe Ge–B
Fe–Eu Fe–V Ga–O Gd–Ga Ge–Ba
Fe–Ga Fe–W Ga–Os Gd–Ge Ge–Be
Fe–Gd Fe–Y Ga–P Gd–H Ge–Bi
Fe–Ge Fe–Yb Ga–Pb Gd–Hg Ge–C
Fe–H Fe–Zn Ga–Pd Gd–Ho Ge–Ca
Fe–Hf Fe–Zr Ga–Pm Gd–I Ge–Cd
Fe–Hg Ga–Pr Gd–In Ge–Ce
Fe–Ho Fm–Mo Ga–Pt Gd–Ir Ge–Co
Fe–In Ga–Pu Gd–La Ge–Cr
Fe–Ir Fr–Ag Ga–Rb Gd–Lu Ge–Cs
Fe–K Fr–Au Ga–Re Gd–Mg Ge–Cu
Fe–Kr Fr–Mg Ga–Rh Gd–Mn Ge–Dy
Fe–La Fr–Mo Ga–Ru Gd–Mo Ge–Er
Fe–Li Ga–S Gd–N Ge–Eu
Fe–Lu Ga–Ag Ga–Sb Gd–Nb Ge–Fe
Fe–Mg Ga–Al Ga–Sc Gd–Nd Ge–Ga
Fe–Mn Ga–As Ga–Se Gd–Ni Ge–Gd
Fe–Mo Ga–Au Ga–Si Gd–O Ge–H
Fe–N Ga–B Ga–Sm Gd–Os Ge–Hf
Fe–Na Ga–Ba Ga–Sn Gd–P Ge–Hg
Fe–Nb Ga–Be Ga–Sr Gd–Pb Ge–Ho
Landolt-Börnstein
New Series IV/12A
Supplement to IV/5A
Phase Equilibria, Crystallographic and Thermodynamic Data of Binary Alloys 8
Ge–I H–B H–Th Hf–Pr Hg–Ir
Ge–In H–Ba H–Ti Hf–Pt Hg–K
Ge–Ir H–Be H–Tl Hf–Pu Hg–La
Ge–K H–Bi H–Tm Hf–Rb Hg–Li
Ge–La H–Bk H–W Hf–Re Hg–Lu
Ge–Li H–Ca H–Y Hf–Rh Hg–Mg
Ge–Lu H–Cd H–Yb Hf–Ru Hg–Mn
Ge–Mg H–Ce H–Zn Hf–S Hg–Mo
Ge–Mn H–Co H–Zr Hf–Sb Hg–N
Ge–Mo H–Cr Hf–Sc Hg–Na
Ge–N H–Cs He–Ag Hf–Se Hg–Nb
Ge–Na H–Cu He–Au Hf–Si Hg–Nd
Ge–Nb H–Dy He–K Hf–Sn Hg–Ni
Ge–Nd H–Er He–Li Hf–Ta Hg–O
Ge–Ni H–Eu He–Mo Hf–Tc Hg–Os
Ge–O H–Fe He–Na Hf–Te Hg–Pb
Ge–P H–Gd He–Ni Hf–U Hg–Pd
Ge–Pb H–Ge Hf–V Hg–Po
Ge–Pd H–Hf Hf–Ag Hf–W Hg–Pr
Ge–Pr H–Hg Hf–Al Hf–Y Hg–Pt
Ge–Pt H–Ho Hf–As Hf–Yb Hg–Pu
Ge–Pu H–In Hf–Au Hf–Zr Hg–Rb
Ge–Rb H–Ir Hf–B Hg–Re
Ge–Re H–K Hf–Be Hg–Ac Hg–Rh
Ge–Rh H–La Hf–Bi Hg–Ag Hg–Ru
Ge–Ru H–Li Hf–C Hg–Al Hg–S
Ge–S H–Lu Hf–Cd Hg–Am Hg–Sb
Ge–Sb H–Mg Hf–Ce Hg–As Hg–Sc
Ge–Sc H–Mn Hf–Co Hg–At Hg–Se
Ge–Se H–Mo Hf–Cr Hg–Au Hg–Si
Ge–Si H–Na Hf–Cs Hg–B Hg–Sm
Ge–Sm H–Nb Hf–Cu Hg–Ba Hg–Sn
Ge–Sn H–Nd Hf–Er Hg–Be Hg–Sr
Ge–Sr H–Ni Hf–Eu Hg–Bi Hg–Ta
Ge–Tb H–Np Hf–Fe Hg–C Hg–Tb
Ge–Te H–Os Hf–Ga Hg–Ca Hg–Tc
Ge–Th H–Pa Hf–Ge Hg–Cd Hg–Te
Ge–Ti H–Pb Hf–H Hg–Ce Hg–Th
Ge–Tl H–Pd Hf–Hg Hg–Cl Hg–Ti
Ge–Tm H–Po Hf–In Hg–Co Hg–Tl
Ge–U H–Pr Hf–Ir Hg–Cr Hg–Tm
Ge–V H–Pt Hf–K Hg–Cs Hg–U
Ge–W H–Pu Hf–Li Hg–Cu Hg–V
Ge–Y H–Rb Hf–Mn Hg–Dy Hg–W
Ge–Yb H–Re Hf–Mo Hg–Er Hg–Y
Ge–Zn H–Rh Hf–N Hg–Eu Hg–Yb
Ge–Zr H–Ru Hf–Na Hg–Fe Hg–Zn
H–Sc Hf–Nb Hg–Ga Hg–Zr
H–Ac H–Si Hf–Ni Hg–Gd
H–Ag H–Sm Hf–O Hg–Ge Ho–Ag
H–Al H–Sn Hf–Os Hg–H Ho–Al
H–Am H–Sr Hf–P Hg–Hf Ho–As
H–As H–Ta Hf–Pd Hg–Ho Ho–Au
H–Au H–Tb Hf–Po Hg–In Ho–B
Landolt-Börnstein
New Series IV/12A
Supplement to IV/5A
Phase Equilibria, Crystallographic and Thermodynamic Data of Binary Alloys 9
Ho–Be Ho–Tm In–Cd In–Sr Ir–Nd
Ho–Bi Ho–U In–Ce In–Ta Ir–Ni
Ho–C Ho–V In–Cl In–Tb Ir–Np
Ho–Cd Ho–W In–Co In–Te Ir–O
Ho–Ce Ho–Y In–Cr In–Th Ir–Os
Ho–Co Ho–Yb In–Cs In–Ti Ir–P
Ho–Cr Ho–Zn In–Cu In–Tl Ir–Pa
Ho–Cu Ho–Zr In–Dy In–Tm Ir–Pb
Ho–Dy In–Er In–U Ir–Pd
Ho–Er I–Ag In–Eu In–V Ir–Pm
Ho–Eu I–Au In–F In–W Ir–Pr
Ho–Fe I–Ba In–Fe In–Y Ir–Pt
Ho–Ga I–Bi In–Ga In–Yb Ir–Pu
Ho–Gd I–Ca In–Gd In–Zn Ir–Rb
Ho–Ge I–Cd In–Ge In–Zr Ir–Re
Ho–H I–Ce In–H Ir–Rh
Ho–Hg I–Cr In–Hf Ir–Ag Ir–Ru
Ho–I I–Cs In–Hg Ir–Al Ir–S
Ho–In I–Cu In–Ho Ir–Am Ir–Sb
Ho–Ir I–Dy In–I Ir–As Ir–Sc
Ho–La I–Er In–Ir Ir–Au Ir–Se
Ho–Lu I–Ga In–K Ir–B Ir–Si
Ho–Mg I–Gd In–Kr Ir–Be Ir–Sm
Ho–Mn I–Ge In–La Ir–Bi Ir–Sn
Ho–Mo I–Ho In–Li Ir–C Ir–Sr
Ho–N I–In In–Lu Ir–Ca Ir–Ta
Ho–Nd I–K In–Mg Ir–Ce Ir–Tb
Ho–Ni I–La In–Mn Ir–Cm Ir–Tc
Ho–O I–Mg In–Mo Ir–Co Ir–Te
Ho–Os I–Mo In–N Ir–Cr Ir–Th
Ho–P I–Na In–Na Ir–Cs Ir–Ti
Ho–Pb I–Nd In–Nb Ir–Cu Ir–Tm
Ho–Pd I–Ni In–Nd Ir–Dy Ir–U
Ho–Pm I–Pr In–Ni Ir–Er Ir–V
Ho–Po I–Rb In–O Ir–Eu Ir–W
Ho–Pr I–Se In–Os Ir–Fe Ir–Y
Ho–Pt I–Sr In–P Ir–Ga Ir–Yb
Ho–Pu I–Tb In–Pb Ir–Gd Ir–Zr
Ho–Re I–Te In–Pd Ir–Ge
Ho–Rh I–Th In–Pm Ir–H K–Ag
Ho–Ru I–Tl In–Pr Ir–Hf K–Al
Ho–S I–W In–Pt Ir–Hg K–As
Ho–Sb I–Y In–Pu Ir–Ho K–Au
Ho–Sc In–Rb Ir–In K–Ba
Ho–Se In–Ag In–Re Ir–K K–Be
Ho–Si In–Al In–Rh Ir–La K–Bi
Ho–Sm In–As In–Ru Ir–Li K–Br
Ho–Sn In–Au In–S Ir–Lu K–C
Ho–Ta In–B In–Sb Ir–Mg K–Ca
Ho–Tb In–Ba In–Sc Ir–Mn K–Cd
Ho–Tc In–Be In–Se Ir–Mo K–Cl
Ho–Te In–Bi In–Si Ir–N K–Co
Ho–Th In–Br In–Sm Ir–Na K–Cr
Ho–Tl In–Ca In–Sn Ir–Nb K–Cs
Landolt-Börnstein
New Series IV/12A
Supplement to IV/5A
Phase Equilibria, Crystallographic and Thermodynamic Data of Binary Alloys 10
K–Cu La–Ag La–Si Li–Pb Lu–Mn
K–F La–Al La–Sm Li–Pd Lu–Mo
K–Fe La–Am La–Sn Li–Pt Lu–N
K–Ga La–As La–Ta Li–Pu Lu–Nd
K–Ge La–Au La–Tb Li–Rb Lu–Ni
K–H La–B La–Te Li–Re Lu–O
K–He La–Ba La–Th Li–Rh Lu–Os
K–Hf La–Be La–Ti Li–Ru Lu–P
K–Hg La–Bi La–Tl Li–S Lu–Pb
K–I La–C La–Tm Li–Sb Lu–Pd
K–In La–Ca La–U Li–Se Lu–Pm
K–Ir La–Cd La–V Li–Si Lu–Po
K–Li La–Ce La–W Li–Sn Lu–Pr
K–Mg La–Cl La–Y Li–Sr Lu–Pt
K–Mo La–Co La–Yb Li–Ta Lu–Pu
K–N La–Cr La–Zn Li–Tc Lu–Re
K–Na La–Cu La–Zr Li–Te Lu–Rh
K–Nb La–Dy Li–Ti Lu–Ru
K–Ni La–Er Li–Ag Li–Tl Lu–S
K–O La–Eu Li–Al Li–U Lu–Sb
K–Os La–Fe Li–As Li–V Lu–Se
K–P La–Ga Li–Au Li–W Lu–Si
K–Pb La–Gd Li–B Li–Zn Lu–Sm
K–Pd La–Ge Li–Ba Li–Zr Lu–Sn
K–Pu La–H Li–Be Lu–Ta
K–Rb La–Hg Li–Bi Lr–Mo Lu–Tb
K–Rh La–Ho Li–C Lu–Tc
K–Ru La–I Li–Ca Lu–Ag Lu–Te
K–S La–In Li–Cd Lu–Al Lu–Th
K–Sb La–Ir Li–Co Lu–As Lu–Ti
K–Se La–Lu Li–Cr Lu–Au Lu–Tl
K–Si La–Mg Li–Cs Lu–B Lu–Tm
K–Sn La–Mn Li–Cu Lu–Be Lu–U
K–Sr La–Mo Li–F Lu–Bi Lu–V
K–Ta La–N Li–Fe Lu–C Lu–W
K–Te La–Nb Li–Ga Lu–Ca Lu–Y
K–Th La–Nd Li–Ge Lu–Cd Lu–Yb
K–Ti La–Ni Li–H Lu–Ce Lu–Zn
K–Tl La–O Li–He Lu–Co Lu–Zr
K–U La–Os Li–Hf Lu–Cr
K–V La–P Li–Hg Lu–Cu Md–Mo
K–W La–Pb Li–In Lu–Dy
K–Zn La–Pd Li–Ir Lu–Er Mg–Ac
K–Zr La–Pm Li–K Lu–Fe Mg–Ag
La–Pr Li–Mg Lu–Ga Mg–Al
Kr–Ag La–Pt Li–Mn Lu–Gd Mg–Ar
Kr–Au La–Pu Li–Mo Lu–Ge Mg–As
Kr–Cd La–Re Li–N Lu–H Mg–Au
Kr–Fe La–Rh Li–Na Lu–Hg Mg–B
Kr–In La–Ru Li–Nb Lu–Ho Mg–Ba
Kr–Mo La–S Li–Ni Lu–In Mg–Be
Kr–Na La–Sb Li–O Lu–Ir Mg–Bi
Kr–Pb La–Sc Li–Os Lu–La Mg–C
Kr–Sn La–Se Li–P Lu–Mg Mg–Ca
Landolt-Börnstein
New Series IV/12A
Supplement to IV/5A
