大学设计方案制备材料统计表

1、毕业论文制备的材料统计表（材料科学与工程研究中心）序号题目姓名制备的材料原料配方(1) (Ba 0.89Sr0.10La0.01)(Ti 0.9675 Ce0.03)O3(x = 0.10, y = 0.01, z = 0.03) -S10L1C3(1-x-y) ?BaCO 3 + x? SrCO3 + y/2?La 2O3(2) (Ba 0.84Sr0.15La0.01)(Ti 0.9675 Ce0.03)O3+ (1-y/4-z) ?TiO 2 + z?CeO2(x = 0.15, y = 0.01, z = 0.03) -S15L1C3 (Ba1-x-y SrxLay)(Ti 1-y/4

2、-z Cez)O 3镧的微量添加对（锶、(1) BaCO 3+ (1-y) CO 2(3) (Ba 0.79Sr0.20La0.01)(Ti 0.9675 Ce0.03)O3SrCO 314铈）共同掺杂钛酸钡陶(2)(x = 0.20, y = 0.01, z = 0.03) S20L1C3CeO 2(0)李雪翠(3)瓷的固溶性和介电性(4) (Ba 0.89Sr0.10La0.01)(Ti 0.9475 Ce0.05)O3TiO 2(x = 0.10, 0.15, 0.20; y = 0.01;质的影响(4)(x = 0.10, y = 0.01, z = 0.05) - S10L1C5La

3、 2O3z = 0.03, 0.05)(5)(5) (Ba 0.84Sr0.15La0.01)(Ti 0.9475 Ce0.05)O3(x = 0.15, y = 0.01, z = 0.05) -S15L1C5Calcinated at 1100 oC for 5 hr(6)(Ba 0.79Sr0.20La0.01)(Ti 0.9475 Ce0.05)O3200 MPa(x = 0.20, y = 0.01, z = 0.05)S20L1C5(1)(Ba 0.98Pr0.02)Ti 0.995O3(x = 0.02) -BP2T(2)(Ba 0.97Pr0.03)Ti 0.9925O3(1-

4、x) BaCO 3 + x/2 ?Pr2O3 + (1-x/4) ?TiO 2(x = 0.03) -BP3T (Ba1-x Prx)Ti 1-x/4 O3 + (1-x) CO 2(3)(Ba 0.96Pr0.04)Ti 0.99O3(x = 0.04) -BP4T(4)(Ba 0.95Pr0.05)Ti 0.9875O3(1) BaCO 315镨掺杂对钛酸钡陶瓷(x = 0.05) -BP5T张金林(2) TiO 2(5)介电性质的影响(5) (Ba 0.94Pr0.06)Ti 0.985O3(3) Pr 2O3(x = 0.06) -BP6T(x = 0.02, 0.03, 0.04,

5、0.05, 0.06, 0.07, 0.08,(6)(Ba 0.94Pr0.06)Ti 0.985O30.10)(x = 0.07) -BP7T(7)(Ba 0.92Pr0.08)Ti 0.98O3Calcinated at 1100 oC for 5 hr(x = 0.08) -BP8T200 MPa(8)(Ba 0.9Pr0.1)Ti 0.975O3(x = 0.10) -BP10T合成温度(1) 1480 oC24 hr100 oC /hr(1) 1480 oC24 hr100 oC /hr(2) 1400 oC12 hr100 oC /hr1序号题目姓名制备的材料原料配方合成温度钛铈酸

6、钡镧钕单相钙16钛矿型高介电陶瓷的鲁东海(1)开发镨和铈共同掺杂的钛17酸钡高介电陶瓷材料陈鹏(3)的探索与研究(1) (Ba0.96La0.02Nd 0.02)(Ti 0.96Ce0.03)O3(x = 0.02, y = 0.02, z = 0.03) - L2N2C3(2) (Ba0.96La0.02Nd 0.02)(Ti 0.95Ce0.04)O3(x = 0.02, y = 0.02, z = 0.04) - L2N2C4(3) (Ba0.96La0.02Nd 0.02)(Ti 0.94Ce0.05)O3(x = 0.02, y = 0.02, z = 0.05) - L2N2C5(

7、4) (Ba0.96La0.02Nd 0.01)(Ti 0.9625Ce0.03)O3(x = 0.02, y = 0.01, z = 0.03) L2N1C3(5) (Ba0.96La0.02Nd 0.01)(Ti 0.9525Ce0.04)O3(x = 0.02, y = 0.01, z = 0.04) L2N1C4(6) (Ba0.96La0.02Nd 0.01)(Ti 0.9625Ce0.03)O3(x = 0.02, y = 0.01, z = 0.05) L2N1C5(7) (Ba0.96La0.03Nd 0.01)(Ti 0.96Ce0.03)O3(x = 0.03, y = 0

8、.01, z = 0.03) L3N1C3(8) (Ba0.96La0.03Nd 0.01)(Ti 0.95Ce0.04)O3(x = 0.03, y = 0.01, z = 0.04) L3N1C4(9) (Ba0.96La0.03Nd 0.01)(Ti 0.96Ce0.03)O3(x = 0.03, y = 0.01, z = 0.05) L3N1C5(1) (Ba0.97Pr0.03)(Ti 0.9625Ce0.03)O3(x = 0.03, y = 0.03) - BP3TC3(2) (Ba0.96Pr0.04)(Ti 0.96Ce0.03)O3(x = 0.04, y = 0.03)

9、 - BP4TC3(3) (Ba0.95Pr0.05)(Ti 0.9575Ce0.03)O3(x = 0.05, y = 0.04) - BP5TC3(4) (Ba0.97Pr0.03)(Ti 0.9525Ce0.04)O3(x = 0.03, y = 0.04) - BP3TC4(5) (Ba0.96Pr0.04)(Ti 0.95Ce0.04)O3(x = 0.04, y = 0.04) - BP4TC4(6) (Ba0.95Pr0.05)(Ti 0.9475Ce0.04)O3(x = 0.05, y = 0.04) - BP5TC4(7) (Ba0.97Pr0.03)(Ti 0.9425C

10、e0.05)O3(x = 0.03, y = 0.05) - BP3TC5(8) (Ba0.96Pr0.04)(Ti 0.94Ce0.05)O3(x = 0.04, y = 0.05) - BP4TC5(9) (Ba0.95Pr0.05)(Ti 0.9375Ce0.05)O3(x = 0.05, y = 0.05) - BP5TC5(1) BaCO 3(2) TiO 2(3) La 2O3(4) Nd 2O3(5) CeO 2(1) BaCO 3(2) TiO 2(3) Pr 2O3(4) CeO 2(1-x-y) BaCO 3 + (x/2) La 2O3 + (y/2) Nd 2O3 +

11、1-(x+y)/4-z TiO 2 + z CeO 2 (Ba1-x-y LaxNd y)(Ti 1-(x+y)/4-z Cez)O3+ (1-x)CO 2(Ba1-x-y Re1xRe2y)(Ti 1-(x+y)/4-z Re3z)O3(0.01 x 0.04,0.005 y 0.03,0.03 z) 0.05(1) - (3)（ x = 0.02; y = 0.02; z = 0.03, 0.04, 0.05 ）(4) - (6)（ x = 0.02; y = 0.01; z = 0.03, 0.04, 0.05 ）(7) - (9)（ x = 0.03; y = 0.01; z = 0.

12、03, 0.04, 0.05 ）(1-x) ?BaCO 3 + (x/2) ?Pr2O3 + (1-x/4-y) ?TiO 2 + y?CeO2 (Ba1-x Prx)(Ti 1-x/4-y Cey)O3 + (1-x)CO 2（ x = 0.03, 0.04, 0.05; y = 0.03, 0.04, 0.05 ）Calcinated at 1100 oC for 5 hr200 Mpa(1)1480 oC24 hr100 oC /hr200 MPa L2N2C5(2)1480 oC24 hr100 oC /hr150 MPa L3N1C5(1) 1480 oC24 hr100 oC /h

13、r(2) 1480 oC12 hr100 oC /hr150 Mpa L2P2C42序号18(2)19(4)题目镨对钛铈酸钡镧的添加制备单相钙钛矿型高介电陶瓷（ Bi 4Ti 3O12 靶材制备）采用冷压陶瓷技术对 BLTC 和 BLNTC 高介电磁控溅射靶材的研制姓名肖泽辉李广制备的材料(1) (Ba0.96La0.02Pr0.02)(Ti 0.95Ce0.04)O3(x = 0.02, y = 0.02, z = 0.04) - L2P2C4(2) (Ba0.96La0.02Pr0.02)(Ti 0.94Ce0.05)O3(x = 0.02, y = 0.02, z = 0.05) - L

14、2P2C5(3) (Ba0.96La0.02Pr0.01)(Ti 0.9525Ce0.04)O3(x = 0.02, y = 0.01, z = 0.04) - L2P1C4(4) (Ba0.96La0.02Pr0.01)(Ti 0.9425Ce0.05)O3(x = 0.02, y = 0.01, z = 0.05) - L2P1C5(5) Bi 4Ti 3O12 - BTO(1) (Ba 0.97La0.03)(Ti 0.9425Ce0.05)O3(x = 0.03, y = 0.05) BL3TC5*(2) (Ba 0.97La0.03)(Ti 0.9625Ce0.03)O 3 陈鹏(x

15、 = 0.03, y = 0.05) BL3TC3(3) (Ba 0.96La0.02Nd 0.02)(Ti 0.94Ce0.05)O3(x = 0.02, y = 0.02, z = 0.05) L2N2C5*(1-2) (Ba 0.95Eu 0.05)Ti 0.99375O3(x = 0.05)BE5T/8 1250, 1350 oC 3 hr(3) (Ba 0.97Pr0.03)Ti 0.9925O3(x = 0.03)-BP3T(4) (Ba 0.96Pr0.04)Ti 0.99O3原料(1) BaCO 3(2) TiO 2(3) Pr 2O3(4) La 2O3(5) CeO 2(1

16、) TiO 2(2) Bi 2O3(1) BaCO 3(2) TiO 2(3) La 2O3(4) CeO 2(1) BaCO 3(2)TiO 2(3)Nd 2O3(4)La 2O3配方(1-x-y) BaCO 3 + (x/2) La 2O3 + (y/2) Pr 2O3 + 1-(x+y)/4-z TiO 2 + z CeO 2 (Ba1-x-y LaxPry)(Ti 1-(x+y)/4-z Cez)O3+ (1-x)CO 2(x = 0.02; y = 0.02, 0.01; z = 0.04, 0.05) Calcinated at 1000 oC for 5 hr Pressure:

17、 200 MPa3TiO 2 +2Bi 2 O3 Bi 4Ti 3O12150 Mpa(1-x) ?BaCO 3 + (x/2) ?La2O3 + (1-x/4-y) ?TiO 2 + y?CeO2 (Ba1-x Lax)(Ti 1-x/4-y Cey)O 3 + (1-x)CO 2(x = 0.03, y = 0.03, 0.05)(1-x-y) BaCO 3 + (x/2) La 2O3 + (y/2) Nd 2O3+ 1-(x+y)/4-z TiO 2 + z CeO2 (Ba1-x-y LaxNd y)(Ti 1-(x+y)/4-zCez)O 3 + (1-x)CO 2 合成温度145

18、0 oC24 hr100 oC /hr200 Mpa L2P2C4 1480 oC24 hr150 Mpa950 oC 2 hr100 oC /hr1480 oC24 hr100 oC /hr150 MPa1450 oC24 hr100 oC /hr200 MPaBP4T(x = 0.04)-BP4T(5) (Ba 0.95Pr0.05)Ti 0.9875O3(x = 0.05)-BP5T1350 oC 12 hr(5)CeO 2(6)Eu 2O3(x = 0.02, y = 0.02, z = 0.05)20(6)铕掺杂钛酸钡低温介电稳定性陶瓷的制备与机理研究李娜娜(1) (Ba 0.97E

19、u0.03)Ti 0.99625O3(x = 0.03)-BE3T/8(2) (Ba 0.95Eu0.05)Ti 0.99375O3(1)BaCO 3(1-x) ?BaCO 3 + (x/2) ?Eu2O3 + (1-x/8) ?TiO 2(2)TiO 2 (Ba1-x Eux)Ti1-x/8 O3 + (1-x)CO2(3)Eu 2O3(x = 0.03, 0.05)1300 oC3(x = 0.05)-BE5T/8 (3) (Ba 0.97Eu0.03)Ti 0.99625O3(x = 0.03)-BE3T/4(4) (Ba 0.95Eu0.05)Ti 0.99375O3(x = 0.05

20、)-BE5T/4 (5) (Ba 0.985Eu 0.015)(Ti 0.985Eu0.015)O3(x = 0.03)-BE3/2T/2E(6) (Ba 0.975Eu 0.025)(Ti 0.975Eu0.025)O3(x = 0.05)-BE5/2T/2E (1) (Ba0.88Sr0.10La0.02)(Ti 0.945Ce0.05)O3(x = 0.10, y = 0.02, z = 0.05) - S10L2C5镧的微量添加对锶和(1) BaCO 3(2) (Ba0.83Sr0.15La0.02)(Ti 0.945Ce0.05)O321张岩岩(2) SrCO 3铈共同掺杂钛酸钡陶(

21、x = 0.15, y = 0.02, z = 0.05) - S15L2C5(7)（应用(3) La 2O3瓷的固溶性和介电性(3) (Ba0.78Sr0.20La0.02)(Ti 0.945Ce0.05)O3化学）(4) TiO 2质的影响(x = 0.20, y = 0.02, z = 0.05) - S20L2C5(5) CeO 2(4) (Ba0.73Sr0.25La0.02)(Ti 0.945Ce0.05)O3(x = 0.25, y = 0.02, z = 0.05) - S25L2C5(1) (Ba0.98Pr0.02)(Ti 0.945Ce0.05)O3(x = 0.00,

22、y = 0.02, z = 0.05) - S0P2C5(2) (Ba0.93Sr0.05Pr0.02)(Ti 0.945Ce0.05)O3(x = 0.05, y = 0.02, z = 0.05) -S5P2C5(1) BaCO 3(3) (Ba0.88Sr0.10Pr0.02)(Ti 0.945Ce0.05)O3(2)SrCO 322镨、锶、铈共同掺杂钛王伟S10P2C5酸钡陶瓷的制备和介(x = 0.10, y = 0.02, z = 0.05) -(3)Pr 2O3(8)（应用(4) (Ba0.83Sr0.15Pr0.02)(Ti 0.945Ce0.05)O3(4)TiO 2电性质研

23、究化学）S15P2C5(x = 0.15, y = 0.02, z = 0.05) -(5)CeO 2(5) (Ba0.78Sr0.20Pr0.02)(Ti 0.945Ce0.05)O3(x = 0.20, y = 0.02, z = 0.05) -S20P2C5(6) (Ba0.73Sr0.25Pr0.02)(Ti 0.945Ce0.05)O3(x = 0.25, y = 0.02, z = 0.05) -S25P2C5烧结温度和时间对(1) (Ba 0.97La0.03)(Ti 0.9425Ce0.05)O3(1)BaCO 3BLTC 陶瓷介电性质WW-04: 1480 oC, 24 hr

24、, 100 oC /hr(2)TiO 2(1-x) ?BaCO 3 + (x/2) ?Eu2O3 + (1-x/4) ?TiO 2 (Ba1-x Eux)Ti1-x/4 O3 + (1-x)CO 2(x = 0.03, 0.05)(1-x/2)BaCO 3 + (x/2) ? Eu2O3 + (1-x/2)TiO 2 (Ba1-x/2 Eux/2)(Ti 1-x/2Eu x/2)O3 + (1-x)CO 2(x = 0.03, 0.05)Sintered at 1100 oC for 5h(1-x-y) ?BaCO 3 + x? SrCO3 + y/2?La 2O3 + (1-y/4-z) ?

25、TiO 2 + z?CeO2 (Ba1-x-y SrxLay)(Ti 1-y/4-z Cez)O 3+ (1-y) CO 2(x = 0.10, 0.15, 0.20, 0.25; y = 0.02; z = 0.05)Calcinated at 1100 oC for 5 hr Pressure: 200 MPa(1-x-y) ?BaCO 3 + x? SrCO3 + y/2?Pr2O3 + (1-y/4-z) ?TiO 2 + z?CeO2 (Ba1-x-y SrxPry)(Ti 1-y/4-z Cez)O3+ (1-y) CO 2(x = 0.00, 0.05, 0.10, 0.15,

26、0.20, 0.25; y = 0.02; z = 0.05)Calcinated at 1100 oC for 5 hr Pressure: 200 MPa(1-x) ?BaCO 3 + (x/2) ?La2O3 + (1-y-x/4) ?TiO 2 + y?CeO23 hr100 oC /hr200 MPa1480 oC24 hr100 oC /hr1480 oC24 hr100 oC /hr1450 oC24 hr4的影响的研究冷压成型压力对BLTC 陶瓷介电性质(1) (Ba 0.97La0.03)(Ti 0.9425Ce0.05)O3(3) La 2O3(4) CeO 2(1) Ba

27、CO 3(2)TiO 2(3)La 2O3 (Ba1-x Lax)(Ti 1-y-x/4 Cey)O 3+ (1-x)CO 2100 oC /hr1480 oC（ x = 0.03; y = 0.05 ）24 hr100 oC /hr(1-x) ?BaCO 3 + (x/2) ?La2O31480 oC+ (1-y-x/4)?TiO 2 + y?CeO224 hr (Ba1-xLa)(Ti+ (1-x)CO2x1-y-x/4y3100 oC /hrCe )O的影响的研究镨和铈共同掺杂的钛24酸钡高介电陶瓷材料袁园(1) (Ba0.97Pr0.03)(Ti 0.9625Ce0.03)O3(x =

28、 0.03, y = 0.03) - BP3TC3(2) (Ba0.96Pr0.04)(Ti 0.96Ce0.03)O3(x = 0.04, y = 0.03) - BP4TC3(3) (Ba0.95Pr0.05)(Ti 0.9575Ce0.03)O3(x = 0.05, y = 0.04) - BP5TC3(4) (Ba0.97Pr0.03)(Ti 0.9525Ce0.04)O3(x = 0.03, y = 0.04) - BP3TC4(5) (Ba0.96Pr0.04)(Ti 0.95Ce0.04)O3(x = 0.04, y = 0.04) - BP4TC4(4) CeO 2(1) Ba

29、CO 3(2)TiO 2(3)Pr 2O3（ x = 0.03; y = 0.05 ）Pressure: 50, 100, 150, 200 MPa(1-x) ?BaCO 3 + (x/2) ?Pr2O3 + (1-x/4-y) ?TiO 2 + y?CeO2 (Ba1-x Prx)(Ti 1-x/4-y Cey)O3 + (1-x)CO 2(1) 1450 oC24 hr100 oC /hr(2) 1450 oC12 hr100 oC /hr的探索与研究镧的微量添加对（锶、铈）共同掺杂钛酸钡陶25李雪翠瓷的固溶性和介电性质的影响(6) (Ba0.95Pr0.05)(Ti 0.9475Ce0.

30、04)O3(x = 0.05, y = 0.04) - BP5TC4(7) (Ba0.97Pr0.03)(Ti 0.9425Ce0.05)O3(x = 0.03, y = 0.05) - BP3TC5(8) (Ba0.96Pr0.04)(Ti 0.94Ce0.05)O3(x = 0.04, y = 0.05) - BP4TC5(9) (Ba0.95Pr0.05)(Ti 0.9375Ce0.05)O3(x = 0.05, y = 0.05) - BP5TC5(1) (Ba 0.88Sr0.10La0.02)(Ti 0.965Ce0.03)O3(x = 0.10, y = 0.02, z = 0.

31、03) -S10L2C3(2) (Ba 0.83Sr0.15La0.02)(Ti 0.965Ce0.03)O3(x = 0.15, y = 0.02, z = 0.03) -S15L2C3(3) (Ba 0.78Sr0.20La0.02)(Ti 0.965Ce0.03)O3(x = 0.20, y = 0.02, z = 0.03) S20L2C3(4) CeO 2(1) BaCO 3(2) SrCO 3(3) CeO 2(4) TiO 2(5) La 2O3（ x = 0.03, 0.04, 0.05; y = 0.03, 0.04, 0.05 ）(3) 1480 oC12 hrCalcin

32、ated at 1100 oC for 5 hr100 oC /hr200 Mpa(1-x-y) ?BaCO 3 + x? SrCO3 + y/2?La 2O3(1) 1450 oC+ (1-y/4-z) ?TiO 2 + z?CeO224 hr (Ba1-x-y SrxLay)(Ti 1-y/4-z Cez)O 3100 oC /hr+ (1-y) CO 2(x = 0.10, 0.15, 0.20; y = 0.02; z = 0.03)Calcinated at 1100 oC for 5 hr ； 200 MPa5采用溶胶-凝胶法对邹德芳26BLTC 陶瓷的制备及介（应用电性质的研究化

33、学）采用溶胶-凝胶法对王华27BaTiO 3 陶瓷的制备及（应用介电性质的研究化学）21镧、锆添加对锶和铈共张岩岩(7)同掺杂钛酸钡陶瓷的（应用固溶性和介电性质的化学）影响(1) (Ba 0.97La0.03)(Ti 0.9425Ce0.05)O3(x = 0.03, y = 0.05) BL3TC51350, 1400, 1450 oC, 12 - 24 hr; 100 oC /hr(1) BaTiO 31250, 1300, 1350 oC, 3 hr; 100 oC /hr(2) (Ba 1-xPr x)Ti1-x/4 O3 (x = 0.04, y = 0.05)1250, 1300,

34、 1350 oC, 3 hr; 100 oC /hr(1) (Ba0.83Sr0.15La0.02)(Ti 0.945Ce0.05)O3(x = 0.15, y = 0.02, z = 0.05) - S15L2C5(2) (Ba0.83Sr0.15La0.02)(Ti 0.845Ce0.05Zr 0.1)O3(x = 0.15, y = 0.02, z = 0.05,w=0.1)S15L2C5Z10(3) (Ba0.83Sr0.15La0.02)(Ti 0.8475Ce0.05Zr0.1)O3(x = 0.15, y = 0.02, z = 0.05,w=0.1)S15L1C5Z10(4)

35、(Ba0.88Sr0.1La0.02)(Ti 0.845Ce0.05Zr0.1)O3(x = 0.10, y = 0.02, z = 0.05,w=0.1)S10L2C5Z10(5) (Ba0.88Sr0.1La0.02)(Ti 0.8475Ce0.05Zr 0.1)O3(x = 0.10, y = 0.02, z = 0.05,w=0.1)S10L1C5Z10(6) (Ba0.88Sr0.10La0.02)(Ti 0.945Ce0.05)O3(x = 0.10, y = 0.02, z = 0.05) - S10L2C5(7) (Ba0.88Sr0.10La0.02)(Ti 0.955Ce0

36、.04)O3(x = 0.10, y = 0.02, z = 0.04) - S10L2C4(8) (Ba0.88Sr0.10La0.02)(Ti 0.965Ce0.03)O3(x = 0.10, y = 0.02, z = 0.03) - S10L2C3(9) (Ba0.93Sr0.05La0.02)(Ti 0.965Ce0.03)O3(x = 0.05, y = 0.02, z = 0.03) S5L2C3(1) BaCO 3(2) TiO 2(3) Pr 2O3(4) CeO 2(1) BaCO 3(2) TiO 2(1) BaCO 3(2) SrCO 3(3) La 2O3(4) Ti

37、O 2(5) CeO 2(1-x) ?BaCO 3 + (x/2) ?La2O3 + (1-y-x/4) ?TiO 2 + y?CeO2 (Ba1-x Lax)(Ti 1-y-x/4 Cey)O 3 + (1-x)CO 2（ x = 0.03; y = 0.05 ）Pressure: 200 MPaBaCO3 + TiO 2 BaTiO 3 + CO 2（ x = 0.03, 0.04, 0.05; y = 0.05 ）Pressure: 200 MPa(1-x-y) ?BaCO 3 + x? SrCO3 + y/2?La 2O3 + (1-y/4-z) ?TiO 2 + z?CeO2 + w ?ZrO 2 (Ba1-x-y SrxLay)(Ti 1-y/4-z-w CezZrw )O3+ (1-y) CO 2Calcinated at 1100 oC for 5 hr Pressure: 200 MPa(1) 1400 oC24