VanZeeland, I. M.; Salinas, J. J.; Mehaffey, J. R.
view article (8.121812)
Compressive Strength of Lumber at High Temperatures.
Carleton Univ., Ontario, Canada; Forintek Canada Corporation, Ontario, Canada
Fire and Materials,
Vol. 29,
No. 2,
71-90,
March/April 2005
Archer, E.; Harkin-Jones, E.; Kearns, M. P.; Fatnes, A. M.
view article (8.121812)
Rotational Molding Characteristics of Metallocene Polyethylene Skin/Foam Structures.
Ulster Univ., Northern Ireland; Queens University of Belfast, Northern Ireland; Borealis AS, N-3960 Stathelle, Norway
Journal of Cellular Plastics,
Vol. 43,
No. 6,
491-504,
November 2007
Anderberg, Y.; Thelanderson, S.
view article (8.120693)
Constitutive Law for Concrete at Transient High Temperature Conditions.
Lund Institute of Technology, Sweden
CIB W14/79/35 (S); ACI Publication SP 55-8; Bulletin 65,
American Concrete Institute. Analytical Design of Fire Exposed Concrete Structures. Douglas McHenry International Symposium. ACI Publication SP-55. Bulletin 65. October 1976,
American Concrete Institute, Detroit, MI,
Mexico City, Mexico,
187-205 p.,
['1976', '1978']
Blaine, R. L.; Arni, H. T.; DeFore, M. R.
view article (8.120693)
Interrelations Between Cement and Concrete Properties. Part 3. Compressive Strengths of Portland Cement Test Mortars and Steam-Cured Mortars.
National Bureau of Standards, Washington, DC
NBS BSS 008,
April 1968,
100 p.
Blaine, R. L.; Arni, H. T.; DeFore, M. R.
view article (8.120693)
Interrelations Between Cement and Concrete Properties. Part 3. Compressive Strengths of Portland Cement Test Mortars and Steam-Cured Mortars. Section 8. Compressive Strength of Steam-Cured Portland Cement Mortars.
National Bureau of Standards, Washington, DC
NBS BSS 008,
April 1968,
32 p.
Fattal, S. G.; Cattaneo, L. E.
view article (8.120693)
Evaluation of Structural Properties of Masonry in Existing Buildings.
National Bureau of Standards, Washington, DC
Veterans Administration, Washington, DC,
NBS BSS 062,
March 1977,
127 p.
Carino, N. J.
view article (8.120693)
Statistical Methods to Evaluate In-Place Test Results.
National Institute of Standards and Technology, Gaithersburg, MD
American Concrete Institute. New Concrete Technology: Robert E. Philleo Symposoum. SP-141-3. 1993,
Liu, T. C.; Hoff, G. C., Editors,
39-64 p.,
1993
Short, N. R.; Gulse, S. E.; Purkiss, J. A.
view article (8.120693)
Assessment of Fire Damaged Concrete Using Color Analysis.
Aston University, Birmingham, UK
Interscience Communications Ltd.; National Institute of Standards and Technology; Building Research Establishment; and Society of Fire Protection Engineers; Swedish National Testing and Research Institute. Interflam '96. International Interflam Conference, 7th Proceedings. March 26-28, 1996,
Interscience Communications Ltd., London, England,
Cambridge, England,
Franks, C. A.; Grayson, S., Editors,
927-931 p.,
1996
Phan, L. T.; Carino, N. J.
view article (8.120693)
Mechanical Properties of High-Strength Concrete at Elevated Temperatures.
National Institute of Standards and Technology, Gaithersburg, MD
NISTIR 6726,
March 2001,
102 p.
Kim, H.; Seo, C.; Shin, H.
view article (8.120693)
Experimental Study on the Physical Properties by Compressive Strength Areas of Concrete at High Temperature.
KICT, Korea
Poster Session 32; PS 32,
Tall Buildings in Historical Cities: Culture and Technology for Sustainable Cities. Volume 2. Proceedings. Council on Tall Buildings and Urban Habitat (CTBUH) 2004 Seoul Conference. October 10-13, 2004,
Seoul, Korea,
Lee, L. H.; Klemencic, R.; Kim, S. D., Editors,
1096-1103 p.,
2004