$ DATABASE_INFO Database for solder alloys under development' Compiled by Ursula R. Kattner, NIST, Gaithersburg, MD, USA ' Last update: 04-Aug-2017 ' Previous update: 30-Nov-1999 ! $ ELEMENT /- ELECTRON_GAS 0.0000E+00 0.0000E+00 0.0000E+00 ! ELEMENT VA VACUUM 0.0000E+00 0.0000E+00 0.0000E+00 ! ELEMENT AG FCC_A1 1.0787E+02 5.7446E+03 4.2551E+01 ! ELEMENT BI RHOMBOHEDRAL_A7 2.0898E+02 6.4266E+03 5.6735E+01 ! ELEMENT CU FCC_A1 6.3546E+01 5.0041E+03 3.3150E+01 ! ELEMENT PB FCC_A1 2.0720E+02 6.8785E+03 6.4785E+01 ! ELEMENT SB RHOMBOHEDRAL_A7 1.2175E+02 5.8702E+03 4.5522E+01 ! ELEMENT SN BCT_A5 1.1869E+02 6.3220E+03 5.1195E+01 ! TYPE_DEFINITION % SEQ * ! DEFINE_SYSTEM_DEFAULT SPECIE 2 ! DEFAULT_COMMAND DEF_SYS_ELEMENT VA ! $----------------------------------------------------------------------- $ Model descriptions of the phases $----------------------------------------------------------------------- PHASE LIQUID:L % 1 1.0 ! CONSTITUENT LIQUID:L :AG,BI,CU,PB,SB,SN : ! PHASE FCC_A1 %A 2 1.0 1.0 ! CONSTITUENT FCC_A1 :AG%,BI,CU%,PB%,SB,SN :VA : ! PHASE BCC_A2 %B 2 1.0 3.0 ! CONSTITUENT BCC_A2 :CU%,SN :VA : ! PHASE HCP_A3 %A 2 1.0 0.5 ! CONSTITUENT HCP_A3 :AG%,BI,PB%,SB,SN :VA : ! PHASE BCT_A5 % 1 1.0 ! CONSTITUENT BCT_A5 :AG,BI,CU,PB,SB,SN% : ! PHASE RHOMBO_A7 % 1 1.0 ! CONSTITUENT RHOMBO_A7 :BI%,PB,SB%,SN : ! PHASE DO3 % 2 0.75 0.25 ! CONSTITUENT DO3 :CU,SN :CU,SN : ! PHASE EPSILON % 2 0.75 0.25 ! CONSTITUENT EPSILON :AG,SB :AG,SB,SN : ! PHASE CU41SN11 % 2 0.788 0.212 ! CONSTITUENT CU41SN11 :CU :SN : ! PHASE CU10SN3 % 2 0.769 0.231 ! CONSTITUENT CU10SN3 :CU :SN : ! PHASE CU3SN % 2 0.75 0.25 ! CONSTITUENT CU3SN :CU :SN : ! PHASE CU6SN5 % 2 0.545 0.455 ! CONSTITUENT CU6SN5 :CU :SN : ! PHASE CU6SN5_L % 2 0.545 0.455 ! CONSTITUENT CU6SN5_L :CU :SN : ! PHASE SBSN % 2 1.000 1.000 ! CONSTITUENT SBSN :SB,SN :SB,SN : ! PHASE SB2SN3 % 2 2.000 3.000 ! CONSTITUENT SB2SN3 :SB :SN : ! $ Type definitions TYPE_DEF A GES A_P_D @ MAGNETIC -3.0 0.280 ! TYPE_DEF B GES A_P_D @ MAGNETIC -1.0 0.400 ! $----------------------------------------------------------------------- $ Functions of the pure elements $----------------------------------------------------------------------- FUN GHSERAG 298.15 -7209.512+118.202013*T-23.8463314*T*LN(T) -.001790585*T**2-3.98587E-07*T**3-12011*T**(-1); 1234.93 Y -15095.252+190.266404*T-33.472*T*LN(T) +1.412E+29*T**(-9); 3000.00 N 91Din ! FUN GAGBCC 298.15 +3400.00-1.05*T+GHSERAG; 3000.00 N 91Din ! FUN GAGHCP 298.15 +300.0+0.30*T+GHSERAG; 3000.00 N 91Din ! FUN GAGBCT 298.15 +4184.1+GHSERAG; 3000.00 N 88Che ! FUN GHSERBI 298.15 -7817.776+128.418925*T-28.4096529*T*LN(T) +.012338888*T**2-8.381598E-06*T**3; 544.55 Y +30208.022-393.650351*T+51.8556592*T*LN(T) -.075311163*T**2+1.3499885E-05*T**3 -3616168*T**(-1)+1.66145E+25*T**(-9); 800.00 Y -11045.664+182.548971*T-35.9824*T*LN(T) +.0074266*T**2-1.046E-06*T**3 +1.66145E+25*T**(-9); 1200.00 Y -7581.312+124.77144*T-27.196*T*LN(T) +1.66145E+25*T**(-9); 3000.00 N 91Din ! FUN GBIFCC 298.15 9900-12.5*T+GHSERBI;,,N 91Din ! FUN GBIHCP 298.15 9900-11.8*T+GHSERBI;,,N 91Din ! FUN GBIBCT 298.15 13526.3+GHSERBI;,,N 96Lee ! $FUN GBIBCT 298.15 4184.07+GHSERBI;,,N 91Din ! FUN GHSERCU 298.15 -7770.458+130.485235*T-24.112392*T*LN(T) -.00265684*T**2+1.29223E-07*T**3+52478*T**(-1); 1357.77 Y -13542.026+183.803828*T-31.38*T*LN(T) +3.642E+29*T**(-9); 3200.00 N 91Din ! FUN GCUBCC 298.15 +4017.0-1.255*T+GHSERCU; 3200.00 N 91Din ! FUN GCUHCP 298.15 +600.0+0.20*T+GHSERCU; 3200.00 N 91Din ! FUN GCUBCT 298.15 +4184.0+GHSERCU; 3200.00 N 0 ! FUN GHSERPB 298.15 -7650.085+101.700244*T-24.5242231*T*LN(T) -.00365895*T**2-2.4395E-07*T**3; 600.61 Y -10531.095+154.243182*T-32.4913959*T*LN(T) +.00154613*T**2+8.054E+25*T**(-9); 1200.00 Y +4157.616+53.139072*T-18.9640637*T*LN(T) -.002882943*T**2+9.8144E-08*T**3 -2696755*T**(-1)+8.054E+25*T**(-9); 2100.00 N 91Din ! FUN GPBHCP 298.15 300+1.0*T+GHSERPB;,,N 91Din ! FUN GPBBCT 298.15 489+3.52*T+GHSERPB;,,N 91Din ! FUN GPBRHO 298.15 15000.0+GHSERPB;,,N 98Yoo ! $FUN GPBRHO 298.15 5000.0+GHSERPB;,,N 94Lee ! $FUN GPBRHO 298.15 9900.0-12.5*T+GHSERPB;,,N 95Oht ! FUN GHSERSB 298.15 -9242.858+156.154689*T-30.5130752*T*LN(T) +.007748768*T**2-3.003415E-06*T**3 +100625*T**(-1); 903.9 Y -11738.671+169.485713*T-31.38*T*LN(T) +1.610442E+27*T**(-9); 2000.00 N 91DIN ! FUN GSBFCC 298.15 19874-13.7*T+GHSERSB;,,N 91Din ! FUN GSBBCC 298.15 19874-15.1*T+GHSERSB;,,N 91Din ! FUN GSBHCP 298.15 19874-13.0*T+GHSERSB;,,N 91Din ! FUN GSBBCT 298.15 1000+GHSERSB;,,N 91Din ! FUN GHSERSN 100.00 -7958.517+122.765451*T-25.858*T*LN(T) +.00051185*T**2-3.192767E-06*T**3 +18440*T**(-1); 250.00 Y -5855.135+65.443315*T-15.961*T*LN(T) -.0188702*T**2+3.121167E-06*T**3 -61960*T**(-1); 505.08 Y +2524.724+4.005269*T-8.2590486*T*LN(T) -.016814429*T**2+2.623131E-06*T**3 -1081244*T**(-1)-1.2307E+25*T**(-9); 800.00 Y -8256.959+138.99688*T-28.4512*T*LN(T) -1.2307E+25*T**(-9); 3000.00 N 91Din ! FUN GSNFCC 298.15 5510-8.46*T+GHSERSN;,,N 81Nga ! FUN GSNBCC 298.15 4400.0-6.00*T+GHSERSN; 3000.00 N 91Din ! FUN GSNHCP 298.15 3900-7.646*T+GHSERSN;,,N 93Ans ! FUN GSNRHO 298.15 2035+GHSERSN;,,N 91Din ! $FUN GSNFCC 298.15 4150-5.2*T+GHSERSN;,,N 91Din ! $FUN GSNHCP 298.15 3900-4.4*T+GHSERSN;,,N 91Din ! $----------------------------------------------------------------------- $ Functions used in excess terms $----------------------------------------------------------------------- FUN UN_ASS 298.15 0; 6000.00 N 0 ! $----------------------------------------------------------------------- $ Phase parameters $----------------------------------------------------------------------- $ Phase LIQUID PARA G(LIQUID,AG;0) 298.15 +11025.076-8.891021*T-1.034E-20*T**7 +GHSERAG#; 1235.08 Y +11508.141-9.301747*T-1.412E+29*T**(-9) +GHSERAG#; 3000.00 N 91Din ! PARA G(LIQUID,BI;0) 298.15 +11246.067-20.63651*T-5.955E-19*T**7 +GHSERBI#; 544.55 Y +11336.259-20.810418*T-1.661E+25*T**(-9) +GHSERBI#; 3000.00 N 91Din ! PARA G(LIQUID,CU;0) 298.15 +12964.736-9.511904*T-5.849E-21*T**7 +GHSERCU#; 1358.02 Y +13495.481-9.922344*T-3.642E+29*T**(-9) +GHSERCU#; 3200.00 N 91Din ! PARA G(LIQUID,PB;0) 298.15 +4672.123-7.750683*T-6.019E-19*T**7 +GHSERPB#; 600.61 Y +4853.138-8.067136*T-8.054E+25*T**(-9) +GHSERPB#; 2100.00 N 91Din ! PARA G(LIQUID,SB;0) 298.15 +19822.329-21.923164*T-1.7485E-20*T**7 +GHSERSB#; 903.78 Y +19914.189-22.029886*T-1.6168E+27*T**(-9) +GHSERSB#; 2000.00 N 91Din ! PARA G(LIQUID,SN;0) 100.00 +7103.092-14.087767*T+1.47031E-18*T**7 +GHSERSN#; 505.08 Y +6971.587-13.814382*T+1.2307E+25*T**(-9) +GHSERSN#; 3000.00 N 91Din ! PARA L(LIQUID,AG,BI;0) 298.15 +5953.61+14.27487*T-2.739828*T*LN(T) ;,,N 94Kat ! PARA L(LIQUID,AG,BI;1) 298.15 -4984.85-1.35493*T;,,N 94Kat ! PARA L(LIQUID,AG,BI;2) 298.15 -1512.05;,,N 94Kat ! PARA L(LIQUID,AG,CU;0) 298.15 +17323.40-4.46819*T;,,N 86Hay ! PARA L(LIQUID,AG,CU;1) 298.15 +1654.38-2.35285*T;,,N 86Hay ! PARA L(LIQUID,AG,PB;0) 298.15 +6799.50+44.94525*T-6.350100*T*LN(T) ;,,N 86Hay ! PARA L(LIQUID,AG,PB;1) 298.15 -2730.60+1.25124*T;,,N 86Hay ! PARA L(LIQUID,AG,PB;2) 298.15 -1185.50-0.16656*T;,,N 86Hay ! PARA L(LIQUID,AG,SB;0) 298.15 -821.8-9.6561*T;,,N 96Oh ! PARA L(LIQUID,AG,SB;1) 298.15 -19309.0+4.4239*T;,,N 96Oh ! PARA L(LIQUID,AG,SB;2) 298.15 -10381.2;,,N 96Oh ! PARA L(LIQUID,AG,SN;0) 298.15 -5146.7-5.0103*T;,,N 96Oh ! PARA L(LIQUID,AG,SN;1) 298.15 -15799.3+3.3208*T;,,N 96Oh ! PARA L(LIQUID,AG,SN;2) 298.15 -6687.5;,,N 96Oh ! PARA L(LIQUID,BI,CU;0) 298.15 23844.75-9.84341*T;,,N 90Tep ! PARA L(LIQUID,BI,CU;1) 298.15 -1260.32-1.19289*T;,,N 90Tep ! PARA L(LIQUID,BI,PB;0) 298.15 -4807.37-1.25*T;,,N 98Yoo ! PARA L(LIQUID,BI,SN;0) 298.15 446.6+0.87696*T;,,N 96Lee ! PARA L(LIQUID,BI,SN;1) 298.15 -1.2081*T;,,N 96Lee ! PARA L(LIQUID,CU,PB;0) 298.15 +27447.0-4.798*T;,,N 95Bol ! PARA L(LIQUID,CU,PB;1) 298.15 +3253.1-0.744*T;,,N 95Bol ! PARA L(LIQUID,CU,PB;2) 298.15 +4134.0-3.302*T;,,N 95Bol ! PARA L(LIQUID,CU,SN;0) 298.15 -9002.8-5.8381*T;,,N 96Shi ! PARA L(LIQUID,CU,SN;1) 298.15 -20100.4+3.6366*T;,,N 96Shi ! PARA L(LIQUID,CU,SN;2) 298.15 -10528.40;,,N 96Shi ! $PARA L(LIQUID,PB,SN;0) 298.15 5125+1.46424*T;,,N 81Nga ! $PARA L(LIQUID,PB,SN;1) 298.15 293.82;,,N 81Nga ! PARA L(LIQUID,PB,SN;0) 298.15 5368+0.93414*T;,,N 89Fec ! PARA L(LIQUID,PB,SN;1) 298.15 97.8+0.09354*T;,,N 89Fec ! $PARA L(LIQUID,PB,SN;0) 298.15 6200-0.418*T;,,N 95Oht ! $PARA L(LIQUID,PB,SN;0) 298.15 5900-0.418*T;,,N 0 ! $PARA L(LIQUID,PB,SN;1) 298.15 790.0-1.914*T;,,N 95Oht ! PARA L(LIQUID,SB,SN;0) 298.15 -5695.14-1.709*T;,,N 86Jon ! PARA L(LIQUID,SB,SN;1) 298.15 +782.595;,,N 86Jon ! PARA L(LIQUID,SB,SN;2) 298.15 +1840.91;,,N 86Jon ! PARA L(LIQUID,AG,CU,PB;0) 298.15 -21442.5;,,N 86Hay ! PARA L(LIQUID,AG,CU,PB;1) 298.15 -20328.1;,,N 86Hay ! PARA L(LIQUID,AG,CU,PB;2) 298.15 -27778.9;,,N 86Hay ! PARA L(LIQUID,AG,CU,SN;0) 298.15 -30000;,,N 0 ! PARA L(LIQUID,AG,SB,SN;0) 298.15 +95275.5-61.7966*T;,,N 96Oh ! PARA L(LIQUID,AG,SB,SN;1) 298.15 -19022.1+21.7912*T;,,N 96Oh ! PARA L(LIQUID,AG,SB,SN;2) 298.15 +18150.3-9.4021*T;,,N 96Oh ! $ Phase FCC_A1 PARA G(FCC_A1,AG:VA;0) 298.15 +GHSERAG#;,,N 0 ! PARA G(FCC_A1,BI:VA;0) 298.15 +GBIFCC#;,,N 0 ! PARA G(FCC_A1,CU:VA;0) 298.15 +GHSERCU#;,,N 0 ! PARA G(FCC_A1,PB:VA;0) 298.15 +GHSERPB#;,,N 0 ! PARA G(FCC_A1,SB:VA;0) 298.15 +GSBFCC#;,,N 0 ! PARA G(FCC_A1,SN:VA;0) 298.15 +GSNFCC#;,,N 0 ! PARA L(FCC_A1,AG,BI:VA;0) 298.15 +24927.08-11.82749*T;,,N 94Kat ! PARA L(FCC_A1,AG,CU:VA;0) 298.15 +36061.88-10.44288*T;,,N 86Hay ! PARA L(FCC_A1,AG,CU:VA;1) 298.15 -4310.12;,,N 86Hay ! PARA L(FCC_A1,AG,PB:VA;0) 298.15 +18993.7+13.47519*T;,,N 86Hay ! PARA L(FCC_A1,AG,PB:VA;1) 298.15 +4226.8-14.63006*T;,,N 86Hay ! PARA L(FCC_A1,AG,SB:VA;0) 298.15 -22937.9+54.18535*T;,,N 96Oh ! PARA L(FCC_A1,AG,SB:VA;1) 298.15 -530.7-58.38697*T;,,N 96Oh ! $PARA L(FCC_A1,AG,SN:VA;0) 298.15 +1445.0+8.65984*T;,,N 96Oh ! $PARA L(FCC_A1,AG,SN:VA;1) 298.15 -36541.5;,,N 96Oh ! PARA L(FCC_A1,AG,SN:VA;0) 298.15 +745.45+11.498027*T;,,N 99Din ! PARA L(FCC_A1,AG,SN:VA;1) 298.15 -36541.5;,,N 99Din ! PARA L(FCC_A1,BI,CU:VA;0) 298.15 77868.73;,,N 90Tep ! PARA L(FCC_A1,BI,PB:VA;0) 298.15 -5208.18+0.575*T;,,N 98Yoo ! $PARA L(FCC_A1,CU,SN:VA;0) 298.15 -10672.00-1.48370*T;,,N 96Shi ! $PARA L(FCC_A1,CU,SN:VA;1) 298.15 -15331.30+6.95390*T;,,N 96Shi ! PARA L(FCC_A1,CU,SN:VA;0) 298.15 -11106.95+2.07910*T;,,N 99Lee ! PARA L(FCC_A1,CU,SN:VA;1) 298.15 -15718.02+5.92467*T;,,N 99Lee ! $PARA L(FCC_A1,PB,SN:VA;0) 298.15 +5132.42+1.5631*T;,,N 81Nga ! PARA L(FCC_A1,PB,SN:VA;0) 298.15 4758.8+2.4719*T;,,N 89Fec ! PARA L(FCC_A1,PB,SN:VA;1) 298.15 2293.4-4.9197*T;,,N 89Fec ! $PARA L(FCC_A1,PB,SN:VA;0) 298.15 +7860.0-4.94*T;,,N 95Oht ! PARA L(FCC_A1,AG,SB,SN:VA;0) 298.15 +75000;,,N 96Oh ! PARA L(FCC_A1,BI,PB,SN:VA;0) 298.15 +10000;,,N 98Yoo ! $ Phase BCC_A2 PARA G(BCC_A2,CU:VA;0) 298.15 +GCUBCC#;,,N! PARA G(BCC_A2,SN:VA;0) 298.15 +GSNBCC#;,,N! PARA L(BCC_A2,CU,SN:VA;0) 298.15 -44821.6+51.2164*T;,,N 96Shi ! PARA L(BCC_A2,CU,SN:VA;1) 298.15 -6876.5-56.4271*T;,,N 96Shi ! $ Phase HCP_A3 PARA G(HCP_A3,AG:VA;0) 298.15 +GAGHCP#;,,N 0 ! PARA G(HCP_A3,BI:VA;0) 298.15 +GBIHCP#;,,N 0 ! PARA G(HCP_A3,PB:VA;0) 298.15 +GPBHCP#;,,N 0 ! PARA G(HCP_A3,SB:VA;0) 298.15 +GSBHCP#;,,N 0 ! PARA G(HCP_A3,SN:VA;0) 298.15 +GSNHCP#;,,N 0 ! PARA L(HCP_A3,AG,BI:VA;0) 298.15 +24927.08-11.82749*T;,,N 94Kat ! PARA L(HCP_A3,AG,PB:VA;0) 298.15 +18993.7+13.4519*T;,,N 86Hay ! PARA L(HCP_A3,AG,PB:VA;1) 298.15 +4226.8-14.63006*T;,,N 86Hay ! PARA L(HCP_A3,AG,SB:VA;0) 298.15 -23050.3+38.36772*T;,,N 96Oh ! PARA L(HCP_A3,AG,SB:VA;1) 298.15 -5357.5-45.06379*T;,,N 96Oh ! PARA L(HCP_A3,AG,SN:VA;0) 298.15 +1046.1+10.23693*T;,,N 96Oh ! PARA L(HCP_A3,AG,SN:VA;1) 298.15 -40505.5;,,N 96Oh ! PARA L(HCP_A3,BI,PB:VA;0) 298.15 -7388.9-0.68*T;,,N 98Yoo ! PARA L(HCP_A3,BI,PB:VA;1) 298.15 2.86*T;,,N 98Yoo ! PARA L(HCP_A3,PB,SN:VA;0) 298.15 +2000+17.1*T;,,N 0 ! PARA L(HCP_A3,AG,PB,SN:VA;0) 298.15 +75000;,,N 96Oh ! PARA L(HCP_A3,AG,SB,SN:VA;0) 298.15 +75000;,,N 96Oh ! $PARA L(HCP_A3,PB,SN:VA;0) 298.15 -5000+29*T;,,N 98Yoo ! $Parameter readjusted for revised GSNHCP $ Phase BCT_A5 PARA G(BCT_A5,AG;0) 298.15 +GAGBCT#;,,N 0 ! PARA G(BCT_A5,BI;0) 298.15 +GBIBCT#;,,N 0 ! PARA G(BCT_A5,CU;0) 298.15 +GCUBCT#;,,N 0 ! PARA G(BCT_A5,PB;0) 298.15 +GPBBCT#;,,N 0 ! PARA G(BCT_A5,SB;0) 298.15 +GSBBCT#;,,N 0 ! PARA G(BCT_A5,SN;0) 298.15 +GHSERSN#;,,N 0 ! PARA L(BCT_A5,AG,CU;0) 298.15 20000;,,N 0 ! PARA L(BCT_A5,AG,SB;0) 298.15 +5*T;,,N 96Oh ! PARA L(BCT_A5,AG,SN;0) 298.15 18358.8;,,N 96Oh ! PARA L(BCT_A5,BI,SN;0) 298.15 -4828.9-18.811*T;,,N 96Lee ! PARA L(BCT_A5,BI,SN;1) 298.15 -8134.2;,,N 96Lee ! PARA L(BCT_A5,CU,SN;0) 298.15 21000.0;,,N 0 ! $PARA L(BCT_A5,PB,SN;0) 298.15 17177.79-11.8066*T;,,N 81Nga ! PARA L(BCT_A5,PB,SN;0) 298.15 19693.75-15.89485*T;,,N 89Fec ! $PARA L(BCT_A5,PB,SN;0) 298.15 19700.0-15.89*T;,,N 95Oht ! PARA L(BCT_A5,SB,SN;0) 298.15 +25404.55-36.2286*T;,,N 86Jon ! PARA L(BCT_A5,SB,SN;1) 298.15 -10404.55+36.2286*T;,,N 86Jon ! $ Phase RHOMBOHEDRAL_A7 PARA G(RHOMBO_A7,BI;0) 298.15 +GHSERBI#;,,N 0 ! PARA G(RHOMBO_A7,PB;0) 298.15 +GPBRHO#;,,N 0 ! PARA G(RHOMBO_A7,SB;0) 298.15 +GHSERSB#;,,N 0 ! PARA G(RHOMBO_A7,SN;0) 298.15 +GSNRHO#;,,N 0 ! PARA L(RHOMBO_A7,BI,SN;0) 298.15 18998;,,N 98Yoo ! $ Phase DO3 (gamma-Cu3Sn.h) PARA G(DO3,CU:CU;0) 298.15 +GCUBCC#;,,N! PARA G(DO3,SN:SN;0) 298.15 +GSNBCC#;,,N! PARA G(DO3,CU:SN;0) 298.15 -10029.85+0.00285*T +0.75*GCUBCC#+0.25*GSNBCC#;,,N 96Shi ! PARA G(DO3,SN:CU;0) 298.15 +116674.85+4.8166*T +0.75*GSNBCC#+0.25*GCUBCC#;,,N 96Shi ! $PARA G(DO3,CU:SN;0) 298.15 -5917.1-2.4384*T $ +0.75*GHSERCU#+0.25*GHSERSN#;,,N 96Shi ! $PARA G(DO3,SN:CU;0) 298.15 +120979.1 $ +0.75*GHSERSN#+0.25*GHSERCU#;,,N 96Shi ! PARA L(DO3,CU:CU,SN;0) 298.15 -1857.8-2.5311*T;,,N 96Shi ! PARA L(DO3,CU:CU,SN;1) 298.15 -2.9894*T;,,N 96Shi ! PARA L(DO3,CU,SN:SN;0) 298.15 +45850.0-42.2191*T;,,N 96Shi ! $ Phase EPSILON Ag3(Sb,Sn) (Description needs to be "cleaned up") PARA G(EPSILON,AG:AG;0) 298.15 +4750-0.5*T+GHSERAG;,,N 96Oh ! PARA G(EPSILON,SB:SB;0) 298.15 +20000-10*T+GHSERSB;,,N 96Oh ! PARA G(EPSILON,AG:SB;0) 298.15 -338.5-4.5184*T +0.75*GHSERAG+0.25*GHSERSB;,,N 96Oh ! PARA G(EPSILON,SB:AG;0) 298.15 +23223.9 +0.25*GHSERAG+0.75*GHSERSB;,,N 96Oh ! PARA G(EPSILON,AG:SN;0) 298.15 -11085.3+110.01471*T -23.18*T*LN(T)-0.00359*T**2+4389.5*T**(-1);,,N 96Oh ! PARA G(EPSILON,SB:SN;0) 298.15 0;,,N 96Oh ! PARA L(EPSILON,AG:AG,SB;0) 298.15 -4873.3;,,N 96Oh! PARA L(EPSILON,AG,SB:SB;0) 298.15 +5932.3;,,N 96Oh! $ Phase CU41SN11 PARA G(CU41SN11,CU:SN;0) 298.15 -6323.5-1.2808*T +0.788*GHSERCU#+0.212*GHSERSN#;,,N 96Shi ! $ Phase CU10SN3 PARA G(CU10SN3,CU:SN;0) 298.15 -6655.0-1.4483*T +0.769*GHSERCU#+0.231*GHSERSN#;,,N 96Shi ! $ Phase CU3SN PARA G(CU3SN,CU:SN;0) 298.15 -8194.2-0.2043*T +0.75*GHSERCU#+0.25*GHSERSN#;,,N 96Shi ! $ Phase CU6SN5 PARA G(CU6SN5,CU:SN;0) 298.15 -6869.5-0.1589*T +0.545*GHSERCU#+0.455*GHSERSN#;,,N 96Shi ! $ Phase CU6SN5_L PARA G(CU6SN5_L,CU:SN;0) 298.15 -7129.7+0.4059*T +0.545*GHSERCU#+0.455*GHSERSN#;,,N 96Shi ! $ Phase SBSN PARA G(SBSN,SB:SB;0) 298.15 +6227.48+2*GHSERSB;,,N 86Jon ! PARA G(SBSN,SN:SN;0) 298.15 +7463.66+2*GHSERSN;,,N 86Jon ! PARA G(SBSN,SB:SN;0) 298.15 -6561.73-1.02354*T +GHSERSB+GHSERSN;,,N 86Jon ! PARA G(SBSN,SN:SB;0) 298.15 -6561.73-1.02354*T +GHSERSB+GHSERSN;,,N 86Jon ! $ Phase SB2SN3 PARA G(SB2SN3,SB:SN;0) 298.15 -1749.05-28.1335*T +2*GHSERSB+3*GHSERSN;,,N 86Jon ! $----------------------------------------------------------------------- $ End of parameters $----------------------------------------------------------------------- LIST_OF_REFERENCES NUMBER SOURCE 81Nga 'T.L. Ngai and Y.A. Chang, CALPHAD 5 (1981) 267-276; Pb-Sn' 86Hay 'F.H. Hayes, H.L. Lukas, G. Effenberg and G. Petzow, Z. Metallkd. 77 (1986) 749-754; Ag-Cu, Ag-Pb, Ag-Cu-Pb' 86Jon 'B. Jonsson and J. Agren, Mater. Sci. Tech. 2 (1986) 913- 916; Sb-Sn (modified description)' 89Fec 'H.J. Fecht, M.-X. Zhang, Y.A. Chang and J.H. Perepezko, Metall. Trans. A 20A (1989) 795-803; Pb-Sn' 90Tep 'O. Teppo, J. Niemela and P. Taskinen, Thermochim. Acta 173 (1990) 137-150; Bi-Cu' 91Din 'A.T. Dinsdale, CALPHAD 15 (1991) 317-425; Unaries' 94Kat 'U.R. Kattner and W.J. Boettinger, J. Electron. Mater. 23 (1994) 603-610; Ag-Bi, Ag-Bi-Sn' 95Oht 'H. Ohtani, K. Okuda and K. Ishida, J. Phase Equilibria 16 (1995) 416-429; Pb-Sn' 96Lee 'B.-J. Lee, C.-S. Oh and J.-H. Shim, J. Electron. Mater. 25 (1996) 983-991; Bi-Sn, In-Sn' 96Oh 'C.-S.Oh, J.-H. Shim, B.-J. Lee and D.N. Lee, J. Alloys Comp. 238 (1996) 155-166; Ag-Sb, Ag-Sn, Ag-Sb-Sn The liquidus shown in the paper does not agree with 86Jon that was used for Sb-Sn' 96Shi 'J.-H. Shim, C.-S.Oh, B.-J. Lee and D.N. Lee, Z. Metallkd. 87 (1996) 205-212; Cu-Sn' 98Yoo 'S.W. Yoon and H.M. Lee, CALPHAD 22 (1998) 167-178; Bi-Pb, Bi-Pb-Sn (L.st. changed from [89Din] to [91Din])' 99Din 'A.T. Dinsdale, NPL, Fcc_a1 update, 1999; Ag-Sn' 99Lee 'B.-J. Lee, KRISS, Fcc_a1 update, 1999; Cu-Sn' !