欢迎登录材料期刊网

材料期刊网

高级检索

综述近20年来国外铍及含铍材料的研究进展,主要包括铍的冶金制备、铍合金、铍和氧化铍金属基复合材料、铍金属间化合物等。概括我国在铍材料方面取得的研究与生产技术进展,以及与国外研发水平的差距。并展望未来10年我国铍及含铍材料需要重点发展的新材料以及突破的关键技术。

The research progress of beryllium and beryllium-containing materials was reviewed in the past two decades in the world, and much effort in this work was focused on beryllium metallurgy, beryllium alloys, beryllium oxide, beryllium matrix composites and intermetallics. The advances of beryllium materials in both research and production techniques in China were summarized, especially in technique gap as compared to that in the developed countries. Finally, the new beryllium materials and their key techniques conforming to the requirements of industry were proposed in the next one decade in China.

参考文献

[1] BOLAND M A .Beryllium - Important for national defense[EB/OL].http://pubs.usgs.gov/fs/2012/3056/pdf/fs_2012_3056.pdf,2012-05-15.
[2] 吴源道.铍-性质、生产和应用[M].北京:冶金工业出版社,1986:1-5.
[3] 聂大均.铍粉末冶金与加工技术[M].北京:中国有色金属工业总公司,1986:1-4.
[4] ROSKILL Information Services Ltd.The economics of beryllium[M].London:Roskill Information Services Ltd Press,2001:1-126.
[5] 高陇桥.氧化铍陶瓷[M].北京:冶金工业出版社,2006:1-9.
[6] HOUSKA C .Beryllium in aluminum and magnesium alloys[J].Metals and Materials Magazine,1988,4(02):100-103.
[7] BERMINGHAM M J;MCDONALD S D;STJONN D H;DARGUSCH M S .Beryllium as a grain refiner in titanium alloys[J].Journal of Alloys and Compounds,2009,481(1/2):L20-L23.
[8] STONEHOUSE A J .Physics and chemistry of beryllium[J].Journal of Vacuum Science and Technology A:Vacuum Surfaces and Films,1986,4(03):1163-1170.
[9] MATERION CORPORATION .IF-1TM beryllium high purity foil[EB/OL].http://materion.com/Products/Beryllium/~/media/Files/PDFs/Electrofusion/EQF3006_IF1.pdf,2012-01-19.
[10] MARDER J M;HASHIGUCHI D H .Structure and properties of atomized beryllium powder[J].Metal Powder Report,1989,44(01):50-53.
[11] PARSONAGE T B.Advances in beryllium optical technology utilizing spherical powder[A].USA:The International Society for Optics and Photonics,1998:130-139.
[12] PARONAGE T;BENOIT J.Advances in beryllium and AlBeMet optical materials[A].USA:The International Society for Optics and Photonics,2002:222-229.
[13] Warren J. Haws .New trends in powder processing beryllium-containing alloys[J].JOM,2000(5):35-37.
[14] PARSONGE T.JWST beryllium telescope:Material and substrate fabrication[A].USA:The International Society for Optics and Photonics,2004:39-48.
[15] TIKHINSKIJ G F;STOEV P I;PAPIROV I I;BABUN A V,VASIL’EV A A .New beryllium materials[J].Journal of Nuclear Materials,233/237(02):828-831.
[16] A. V. Babun;I. M. Neklyudov;V. M. Azhazha .Powder Metallurgy of Beryllium: the Developments of the National Scientific Center "Khar'kov Physicotechnical Institute"[J].Powder Metallurgy and Metal Ceramics,2006(3/4):207-213.
[17] SAXTON D;PARSONAGE T B.Advances in near net shape beryllium manufacturing technologies[A].USA:The International Society for Optics and Photonics,2000:80-90.
[18] COURTNEY T P;KRANKOTA,J L .Finite element analysis of hot isostatic pressing of beryllium powder into near net shapes[R].USA:Rockwell International,Golden,CO,Rocky Flats Plant,1987.
[19] REARDON B J .Advances in beryllium powder consolidation simulation[R].Los Alamos,NM:Los Alamos National Laboratory,1998.
[20] GOLDBERG A .Beryllium manufacturing processes[R].Livermore,CA:Lawrence Livermore National Laboratory,2006.
[21] CLEMENT II T P.Design of lightweight beryllium optics,factors effecting producibility,and cost of near-net-shape blanks[A].USA:The International Society for Optics and Photonics,1991:31-38.
[22] HASHIGUCHI D H;CLEMENT T P;MARDER J M .Properties of beryllium consolidated by several near-net shape processes[J].Journal of Materials Shaping Technology,1989,7(01):23-31.
[23] CLTMENT T P;PARSONAGE T B;KUXHAUS M B .Near-net-shape processing cuts cost of beryllium optics[J].Advanced Materials and Processes,1992,141(03):37-40.
[24] WALSH K A;VIDAL E E;GOLDERG A;DALDER E N C.OLSON D L,MISHRA B.Beryllium chemistry and processing[M].Ohio:ASM International,2009:328-333.
[25] ISHITSUKA E;KAWAMURA H;SAKAMOTO N;NISHIDA K .Process for preparing metallic beryllium pebbles[P].USA,5958105,1999-09-28.
[26] Anderl RA.;Davydov D.;Pawelko RJ.;Smolik GR.;Scaffidi-Argentina F. .Steam chemical reactivity of Be pebbles and Be powder[J].Journal of Nuclear Materials: Materials Aspects of Fission and Fusion,2000(Pt.B):1463-1467.
[27] M. Uchida;H. Kawamura;M. Uda;Y. Ito .Elementary development for beryllide pebble fabrication by rotating electrode method[J].Fusion engineering and design,2003(1/4):491-498.
[28] DALLE DONNE M;LONGHURST G R;KAWAMURA H;SCAFFIDI-ARGENTINA F .Beryllium R&D for blanket application[J].Journal of Nuclear Materials,1998,258/263(01):601-606.
[29] Satoru Tanaka;Yoshihiro Ohara;Hiroshi Kawamura .Blanket R&D activities in Japan towards fusion power reactors[J].Fusion engineering and design,2000(0):299-307.
[30] ISHITSUKA E;KAWAMURA H .Thermal and mechanical properties of beryllium pebbles[J].Fusion Engineering and Design,1995,27:263-268.
[31] DALLE DONNE M;GORAIEB A;PIAZZA G;SCAFFIDI-ARGENTINA F .Experimental investigations on the thermal and mechanical behaviors of a binary beryllium pebble bed[J].Fusion Engineering and Design,2000,49/50:521-528.
[32] E.Ishitsuka;H.Kawamura;T.Terai .Compression properties of neutron irradiated beryllium pebbles[J].Fusion engineering and design,2000(0):123-126.
[33] FENN R W;GLASS R A;NEEDHAM R A;STEINBEG M A .Beryllium-aluminum alloys[J].Journal of Spacecraft,1965,2(01):87-93.
[34] MILEWSKI J O .Ultra-narrow gap laser welding of BeAl alloys-Final report[R].Los Alamos,NM:Los Alamos National Laboratory,1998.
[35] MATERION CORPORATION .AlBeWeld?-Net shaping through electron beam welding[EB/OL].http://materion.com/Products/Beryllium/MetalMatrixComposites-Beryllium/AlBeWe ld.aspx,2011-01-31.
[36] William Speer;Omar S. Es-Said .Applications of an aluminum-beryllium composite for structural aerospace components[J].Engineering failure analysis,2004(6):895-902.
[37] ANONYMOUS .Beryllium aluminum ready for take off[J].MACHINE DESIGN,2005,77(07):38.
[38] Beryllium-aluminum alloys raise stiffness of spacecraft[J].Advanced Materials & Processes,2005(9):12-0.
[39] US Air Force Research Laboratory;Wright-Patterson Air Force Base .Beryllium-aluminum alloys reduce weight in spacecraft[J].Advanced Materials and Processes,2004,162(04):12.
[40] US Air Force Research Laboratory.Beryllium-aluminum alloys reduce weight of spacecraft components and provide greater stiffness than conventional materials[J].USAF Materials Technology Highlight,2004(04):3.
[41] IBC Advanced Alloy .Product data sheet-Beralcast? 191[EB/OL].http://www.ibcadvancedalloys.com/index.php src=gendocs&ref=BeAlAlloys&category=Products,2013-07-11.
[42] Materion Corporation .AlBeMet162 material properties[EB/OL].http://materion.com/Products/Beryllium/MetalMatrixComposites-AluminumBeryllium/AlbeMet.aspx,2012-11-17.
[43] MARDER J M .Aluminum-beryllium alloys[J].Advanced Materials and Processes,1997,152(04):37-40.
[44] Parsonage T.; .Beryllium metal matrix composites for aerospace and commercial applications[J].Materials Science and Technology: MST: A publication of the Institute of Metals,2000(7-8):732-738.
[45] KNAPP J T.38% aluminum-62% beryllium shaped blank technology[A].USA:The International Society for Optics and Photonics,2007:66660W-6661-8.
[46] STAHL H P;FEINBERG L O;TEXTER S C.JWST primary mirror material selection[A].USA:The International Society for Optics and Photonics,2004:818-824.
[47] REED T;KENDRICK S E;BROWN R J;HADAWAY J B,BYRD D.Final results of the subscale beryllium mirror demonstrator(SBMD)program[A].USA:The International Society for Optics and Photonics,2001:5-14.
[48] KENDRICK S E;CHANEY D;BROWN R J.Optical characterization of the beryllium semi-rigid AMSD mirror assembly[A].USA:The International Society for Optics and Photonics,2004:180-187.
[49] COLE G C;GARFIELD R;PETER T;WOLFF W,JOHNSON K,BERNIER R,KIIKA C,NASSAR T,WONG H A,KINCADE J,HULL T,GALLAGHER B,CHANEY D,BROWN R J,MVKAY A,COHEN L M.An overview of optical fabrication of the JWST mirror segments at Tinsley[A].USA:The International Society for Optics and Photonics,2006:62650V-1-62650V-9.
[50] NELLA J;ATKINSON C;BRONOWICKI A;BUJANDA E,COHEN A,DAVIES D,MOHAN M,POHNER J,REYNOLDS P,TEXTER S,SIMMONS D F,WALDIE D,WOODS R.James web space telescope(JWST)observatory architecture and performance[A].USA:The International Society for Optics and Photonics,2004:576-587.
[51] STAHL H P.JWST mirror technology development results[A].USA:The International Society for Optics and Photonics,2007:667102-1-667102-12.
[52] Materion Corporation .UHP 9999 high purity grade beryllium[EB/OL].http://materion.com/~/media/Files/PDFs/Beryllium/SpecSheets/UHP-9999.pdf,2012-03-13.
[53] MOONS F;SANNEN L;RAHN A;DE VELDE J V .Neutron irradiated beryllium:Tensile strength and swelling[J].Journal of Nuclear Materials,1996,233/237(02):823-827.
[54] J. Reimann;L. Boccaccini;M. Enoeda;A.Y. Ying .Thermomechanics of solid breeder and Be pebble bed materials[J].Fusion engineering and design,2002(0):319-331.
[55] J.H. You;H. Bolt .Thermal stress intensity factor of interfacial cracks of a plasma facing component under high heat flux loading[J].Fusion engineering and design,2003(4):483-492.
[56] J. Reimann;H. Harsch .Thermal creep of beryllium pebble beds[J].Fusion engineering and design,2005(1/4):1043-1047.
[57] Rodig M.;Derz H.;Duwe R.;Linke J.;Lodato A.;Merola M. Pott G.;Vieider G.;Wiechers B.;Conrad R. .Neutron-irradiation effects on high heat flux components - examination of plasma-facing materials and their joints[J].Journal of Nuclear Materials: Materials Aspects of Fission and Fusion,2000(Pt.B):1161-1165.
[58] A. Nikroo;H.W. Xu;K.A. Moreno;K.P. Youngblood;J. Cooley;C.S. Alford;S.A. Letts;R.C. Cook .INVESTIGATION OF DEUTERIUM PERMEABILITY OF SPUTTERED BERYLLIUM AND GRADED COPPER-DOPED BERYLLIUM SHELLS[J].Fusion science and technology: An international journal of the American Nuclear Society,2007(4):553-558.
[59] Wilson DC.;Hoffman NM.;Swenson FJ.;Smitherman DP.;Chrien RE.;Margevicius RW.;Thoma DJ.;Foreman LR.;Hoffer JK.;Goldman SR. Caldwell SE.;Dittrich TR.;Haan SW.;Marinak MM.;Pollaine SM.;Sanchez JJ.;Bradley PA. .The development and advantages of beryllium capsules for the National Ignition Facility[J].Physics of plasmas,1998(5 Pt.2 SpecialIssueS):1953-1959.
[60] MCEACHERN R L .Beryllium materials for National Ignition Facility Targets LARD-Final report[R].Livermore CA:Lawrence Livermore National Laboratory,2001.
[61] BEK’KOV S A;BONDARENKO S V;LLKAEVA L A;KOCHEMASOV G G,MKHITARIAN L S,VHIOKUROV O A,RYABIKINA N A .The effects of joint in two beryllium hemisperes used to form an ignition capsule for the National Ignition Facilityn Facility[R].Los Alamos,NM:Los Alamos National Laboratory,1998.
[62] BATHA S H;ALBRIGHT B J;ALEXANDER D J;BARNES C W,Bradley P A,COBBLE J A,COOLEY J C,COOLEY J H,DAY R D,DEFRIEND K A,DELAMATER N D,DODD E S,FATHERLEY V E,FERNANDEZ J C,FLIPPO K A,GRIM G P,GOLDMAN S R,GREENFIELD S R,HERRMANN H W,HOFFMAN N M,HOLMES R L,JOHNSON R P,KEITER,P A,KLINE J L,KYRALA.Inertial confinement fusion research at Los Alamos National Laboratory[A].,2009:129-147.
[63] KRENZER R W.Cast of beryllium[A].New York and London:Plenum Press,1979:31-55.
[64] Materion Coporation .IS-50MTM beryllium mammography grade foil[EB/OL].http://materion.com/Products/Beryllium/~/media/Files/PDFs/Electrofusion/EQF3009_IS50M.pdf,2011-12-16.
[65] A. ABOU-SENA;A. YING;M. ABDOU .EXPERIMENTAL INVESTIGATION AND ANALYSIS OF THE EFFECTIVE THERMAL PROPERTIES OF BERYLLIUM PACKED BEDS[J].Fusion science and technology: An international journal of the American Nuclear Society,2003(1):79-84.
[66] H. Kawamura;H. Takahashi;N. Yoshida;V. Shestakov;Y. Ito;M. Uchida;H. Yamada;M. Nakamichi;E. Ishitsuka .Application of beryllium intermetallic compounds to neutron multiplier of fusion blanket[J].Fusion engineering and design,2002(0):391-397.
[67] ITO Y;KAWAMURA H;UCHIDA M;UDA M .Material for nuclear fusion furnace excellent in high temperature characteristics comprising beryllium intermetallic compound[P].EU 1494244A1,2007-12-12.
[68] Kawamura H;Takahashi H;Yoshida N;Mishima Y;Ishida K;Iwadachi T;Cardella A;van der Laan JG;Uchida M;Munakata K;Sato Y;Shestakov V;Tanaka S .Present status of beryllide R&D as neutron multiplier[J].Journal of Nuclear Materials: Materials Aspects of Fission and Fusion,2004(0):112-118.
[69] Mishima Y;Yoshida N;Kawamura H;Ishida K;Hatano Y;Shibayama T;Munakata K;Sato Y;Uchida M;Tsuchiya K .Recent results on beryllium and beryllides in Japan[J].Journal of Nuclear Materials: Materials Aspects of Fission and Fusion,2007(b):1382-1386.
[70] KURINKIY P;CHAKIN V;MOSELANG A;POLLI R GORAIEB A A HARSCH H ALVES E FRANCO N .Characterization of titanium beryllides with different microstructure[J].Fusion Engineering and Design,2009,84(7/11):1136-1139.
[71] Yoshinao Mishima;Naoaki Yoshida;Heishichiro Takahashi;Kiyohito Ishida;Hiroshi Kawamura;Takaharu Iwadachi;Tamaki Shibayama;Ikuo Ohnuma;Yoshiyuki Sato;Kenzo Munakata;Hirotomo Iwakiri;Munenori Uchida .Present status of beryllides for fusion and industrial applications in Japan[J].Fusion engineering and design,2007(1):91-97.
[72] KURINSKIY P;MOESLANG A;KLIMIANKOU M;GORAIEB A A HARSCH H .Manufacturing methods and characterization of titanium beryllides[J].Fusion Engineering and Design,2007,82(15/24):2353-2358.
[73] KAWAMURA H;TSUCHIYA K;MISHIMA Y;YOSHIDA N,MUNAKATA K,ISHIDA K,HATANO Y,SHIBAYAMA T,SATO Y,UCHIDA M,TANAKA S.Status of beryllium R&D in Japan[A].Idaho Falls,Idaho:Idaho National Laboratory,2006:1-7.
[74] 张国成.有色金属进展(第五卷):稀有金属和贵金属[M].长沙:中南大学出版社,2007:21.
[75] 张友寿,秦有钧,吴东周,谢志强.铍和含铍材料的性能及应用[J].焊接学报,2001(06):92-96.
[76] REVANKAR S .BeO enables uranium fuel to radiate heat 50%faster[J].Advanced Materials and Processes,2005,163(12):12.
[77] HARKNESS J C;APIEGELBERG W D;CRIBB W R.ASM Handbook(Vol.2):Properties and selection:Nonferrous alloys and special-purpose materials[M].Ohio:ASM International,1990:403-427.
[78] MATERION CORPORATION .Nickel beryllium alloy-Alloy 360[EB/OL].http://materion.com/Products/Alloys/NickelBerylli-um Alloy/Alloy360.aspx,2011-02-15.
[79] I. N. Fridlyander .HIGH-MODULUS ALUMINUM ALLOYS WITH BERYLLIUM AND MAGNESIUM[J].Metal Science and Heat Treatment,2003(9/10):348-350.
[80] HE Jin-lin;ZHONG Jing-ming;WANG Zhan-hong;WANG Li,CHEN Ji-ming,PAN Chuan-hong.Development on the VHP beryllium for ITER in china[A].Moscow:Inter Contact Science Publishing Co.Ltd,2011:71-75.
[81] 钟景明;许德美;李峰;王战宏,何季麟,苏东峰,李众.铍及铍合金技术进展[A].北京:高等教育出版社,2013:97-106.
[82] 王战宏,王莉,赵双群,买学锋,许德美,钟景明,曲选辉.Ni对Be-Al合金组织和性能的影响[J].特种铸造及有色合金,2006(08):526-528.
[83] 王战宏,王莉,买学锋,赵玉林.铍铝合金结构材料制造研究[J].采矿技术,2006(04):16-18.
[84] 许德美,李峰,王战宏,何力军,任玉平,裴文利,秦高梧.粉末热等静压和铸造Be-Al合金的室温拉伸断裂机理[J].中国有色金属学报,2009(12):2128-2135.
上一张 下一张
上一张 下一张
计量
  • 下载量()
  • 访问量()
文章评分
  • 您的评分:
  • 1
    0%
  • 2
    0%
  • 3
    0%
  • 4
    0%
  • 5
    0%