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Home > Publications > International Concrete Abstracts Portal
The International Concrete Abstracts Portal is an ACI led collaboration with leading technical organizations from within the international concrete industry and offers the most comprehensive collection of published concrete abstracts.
Showing 1-5 of 23 Abstracts search results
Document:
SP58-21
Date:
January 1, 1978
Author(s):
V.M. Malhotra, G. Carette, and J.A. Soles
Publication:
Symposium Papers
Volume:
58
Abstract:
This paper presents data on long-term strength and durability of sulphur-infiltrated concrete.
DOI:
10.14359/17802
SP58-02
H. Schorn
This paper presents results of experiments and a theoretical concept of composite systems consisting of Portland cement concrete bonded by polymer mortars. Criterions for time-dependent shear failure are given. The criterions are based on the different deformation behavior of Portland cement mortar and polymer mortar.
10.14359/17783
SP58-08
T.S. Nagaraj, K.T. Sundara Raja Iyengar, and C.S. Viswanatha
With the continued research efforts, presently the techniques of production of polymer impregnated concretes have been fairly understood. Measured and evaluated mechanical properties and durability aspects of this material reveal that dramatic improvements are possbile thereby offering great potential to this material in building industry.
10.14359/17789
SP58-07
David W. Fowler, Lawrence E. Kukacka, Donald R. Paul, Ernest K. Schrader, and W. Glenn Smoak
The use of concrete-polymer materials in construction requires that users be knowledgeable concerning safety. This paper discusses safety aspects of chemicals and construction practices.
10.14359/17788
SP58-22
S.P. Shah, A.E. Naaman, and R.H. Smith
The primary purpose of this investigation was to study the feasibility and effects of sulfur impregnation of concrete carried out at atmospheric pressure. The investigation had three parts: to study the effects of process technology parameters (mix proportions, time of curing, temperature of drying and time of immersion in molten sulfur bath), to analyze the effects of high temperature and temperature cycling on properties of impregnated concrete, and to explore the possiblility of improving strength and ductiliy of SIC by addition of steel fibers.
10.14359/17803
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