STRENGTH AND DURABILITY OF CONCRETES CONTAINING 50-PERCENT PORTLAND-CEMENT REPLACEMENT BY FLY-ASH AND OTHER MATERIALS

被引:25
|
作者
LANGAN, BW
JOSHI, RC
WARD, MA
机构
[1] Univ of Calgary, , Alberta
来源
CANADIAN JOURNAL OF CIVIL ENGINEERING | 1990年 / 17卷 / 01期
关键词
D O I
10.1139/l90-004
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
Results are presented from an investigation on the compressive strength and durability of concretes containing substitute materials at a 50% replacement level (by mass) of Portland cement. Seven fly ashes (sub-bituminous, bituminous, and lignitic), together with limestone and an inert material (silica flour), were used as replacement materials. Durability studies included freeze-thaw testing (ASTM C666A), scaling resistance (ASTM C672), and abrasion resistance (ASTM C944). The air void system was assessed using the modified point count method of ASTM C457. The results indicate that although concretes with a 50% replacement level of cementitious material did not perform as well as the control concretes with no replacement, such concretes were able to meet minimum durability requirements. As anticipated, air-entrainment is the overriding factor that allows concrete to meet freeze-thaw durability requirements. In the context of this study, compressive strength does not appear to be a significant factor in freeze-thaw durability. Additional results are discussed.
引用
收藏
页码:19 / 27
页数:9
相关论文
共 50 条
  • [1] PREDICTING THE STRENGTH CONTRIBUTION POTENTIAL OF A FLY-ASH TO PORTLAND-CEMENT PRODUCTS
    MEHTA, PK
    CHEN, S
    ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 1984, 187 (APR): : 141 - INDE
  • [2] STUDIES ON THE DESICCATION AND CARBONATION OF SYSTEMS CONTAINING PORTLAND-CEMENT AND FLY-ASH
    BUTTLER, FG
    DECTER, MH
    SMITH, GR
    JOURNAL OF THE AMERICAN CONCRETE INSTITUTE, 1983, 80 (04): : 343 - 343
  • [3] COMPRESSIVE STRENGTH STUDIES ON PORTLAND-CEMENT MORTARS CONTAINING FLY-ASH AND SUPER-PLASTICIZER
    STUART, KD
    ANDERSON, DA
    CADY, PD
    CEMENT AND CONCRETE RESEARCH, 1980, 10 (06) : 823 - 832
  • [4] BENEFICIATED FLY-ASH - HYDRATION, MICROSTRUCTURE, AND STRENGTH DEVELOPMENT IN PORTLAND-CEMENT SYSTEMS
    BERRY, EE
    HEMMINGS, RT
    LANGLEY, WS
    CARETTE, GG
    FLY ASH, SILICA FUME, SLAG, AND NATURAL POZZOLANS IN CONCRETE, VOL 1-2, 1989, 114 : 241 - 273
  • [5] EFFECTS OF ADMIXTURES ON PORTLAND-CEMENT CONCRETES INCORPORATING BLAST-FURNACE SLAG AND FLY-ASH
    MAILVAGANAM, NP
    BHAGRATH, RS
    SHAW, KL
    JOURNAL OF THE AMERICAN CONCRETE INSTITUTE, 1983, 80 (04): : 345 - 345
  • [6] MIX PROPORTIONS AND STRENGTH CHARACTERISTICS OF CONCRETE CONTAINING 50-PERCENT LOW-CALCIUM FLY-ASH
    SWAMY, RN
    MAHMUD, HB
    JOURNAL OF THE AMERICAN CONCRETE INSTITUTE, 1986, 83 (02): : 332 - 332
  • [7] EFFECT OF FLY-ASH ON THE HYDRAULICITY OF HIGH MAGNESIAN PORTLAND-CEMENT
    SARKAR, R
    DASPODDAR, PK
    INDIAN JOURNAL OF TECHNOLOGY, 1989, 27 (05): : 253 - 255
  • [8] PORTLAND-CEMENT FLY-ASH SILICA FUME SYSTEMS IN CONCRETE
    POPOVICS, S
    ADVANCED CEMENT BASED MATERIALS, 1993, 1 (02): : 83 - 91
  • [9] GUIDE FOR SELECTING PROPORTIONS FOR HIGH-STRENGTH CONCRETE WITH PORTLAND-CEMENT AND FLY-ASH
    ALONZO, O
    BARRINGER, WL
    BARTON, SG
    BELL, LW
    BENNETT, JE
    BOYLE, M
    BURG, GRU
    CARRASQUILLO, RL
    COOK, JE
    COOK, RA
    CROCKER, DA
    DETWILER, G
    DIXON, DE
    DODL, CL
    FOX, TA
    HOLLON, GW
    JABER, TM
    LANE, SM
    LEE, SH
    LUTHER, M
    MEININGER, RC
    PIERCE, JS
    PISTILLI, M
    POPOVICS, S
    RAGAN, SE
    SCHLEGEL, D
    SHILSTONE, JM
    STODOLA, PR
    SYPHER, WX
    SHYPULA, A
    THOMPSON, JL
    VIRGALITTE, SJ
    VOGT, WL
    WEBER, JW
    WHITE, DJ
    WILLIAMS, MS
    WILSON, JR
    ACI MATERIALS JOURNAL, 1993, 90 (03) : 272 - 283
  • [10] GUIDE FOR SELECTING PROPORTIONS FOR HIGH-STRENGTH CONCRETE WITH PORTLAND-CEMENT AND FLY-ASH
    LESHCHINSKY, A
    ACI MATERIALS JOURNAL, 1994, 91 (01) : 127 - 127
12345