Concreto de alta resistência: composição, propriedades e dimensionamento / High-strength concrete: composition, properties and design

Silva, Inês Santana da

03 February 1995

Concretos de alta resistência têm sido usados em estruturas, atualmente, em diversas partes do mundo. Entretanto, no Brasil, pouco se conhece sobre seu comportamento. Este trabalho fornece uma visão geral das aplicações, dos materiais empregados na produção, das propriedades mecânicas e do comportamento estrutural dos concretos de alta resistência. Resultados experimentais obtidos por alguns pesquisadores, para pilares com carga axial e para vigas sujeitas a flexão e a cisalhamento, são comparados com valores teóricos, calculados com procedimentos usuais relativos a concretos de resistência usual. Para os pilares, é inquestionável a necessidade do confinamento do núcleo de concreto, utilizando armadura de cintamento. Na flexão das vigas, as taxas mínimas para armadura longitudinal, sugeridas pelas normas para concretos usuais, não são suficientes; é importante ter valores maiores que esses. E para cisalhamento, as recomendações das normas são satisfatórias. / Nowadays, high-strength concrete has been used in structures all over the world. However, in Brazil, not much is known about its behavior. This work provides an overview of the applications, the materials employed in production, the mechanical properties, and the structural behavior of high-strength concrete. Experimental results obtained by several researchers, for columns under axial load and beams under flexure and shear, are confronted with theoretical values, computed by normal procedures relative to normal strength concrete. For columns, it is unquestionable the need of confinement of the concrete core by transverse reinforcement. In beams under flexure, the minimum rates for longitudinal reinforcement, suggested by the codes for usual concrete, are not enough; it is important to have values greater than those. And for shear, the codes requirements are satisfactories.

Concreto de alta resistência

Design

Dimensionamento

High-strength concrete

Properties

Propriedades

Development length equation for high-strength materials

Kim, Najung, 1977-

24 July 2015

The goal of this study was to revise the development length equation of ACI 318- 05 and to better reflect test results for high-strength concrete. The revision of the equation was accomplished using test results tabulated in the Database 10-2001maintained by ACI committee 408. Equations for development length in ACI 318-05 and ACI 408.3 examined to understand the issues to be considered for revision on the variability of test data. The development length equation in ACI 318-05 was very conservative for [compressive strength of concrete][less than or equal to]14,000 psi based on the experimental data in Database 10-2001 of ACI Committee 408. On the contrary, the ACI 318-05 may be less conservative for high-strength concrete, [compressive strength of concrete] [greater than or equal to]14,000 psi . Thus, modified design equations were proposed to provide realistic values for normal strength concrete and conservatively for high-strength concrete. The ACI 318-05 equation was modified for 1) compressive strength of concrete and 2) confinement as expressed by the term [minimum side cover, cover over the bar or wire, or one-half the center-to-center spacing of the bars or wires] + [contribution of confining reinforcement across potential splitting planes] / [normal diameter of bar] in ACI 318-05. The basic assumption is that bar stress is a linear function of development length, and development length is the length required for bar stresses to reach the yield. / text

High-strength concrete

Development length equation

Compressive strength of concrete

An investigation into possible means of increasing the strength of lightweight high strength concrete

Edwards, Derek Oswald.

January 1993

published_or_final_version / Civil and Structural Engineering / Master / Master of Philosophy

Aggregates (Building materials)

Lightweight concrete.

High strength concrete.

Concrete construction.

Shear capacity and flexural ductility of reinforced high- and normal-strength concrete beams

Islam, Md. Shahidul.

January 1996

published_or_final_version / Civil Engineering / Master / Master of Philosophy

Concrete beams - Testing.

High strength concrete - Testing.

Shear (Mechanics)

Investigation of mix design and properties of high-strength/high-performance lightweight concrete

Buchberg, Brandon S.

05 1900

No description available.

High strength concrete

Concrete construction

Concrete Additives

Lightweight concrete

Direct pull-out capacity and transfer length of 06-inch diameter prestressing strand in high-performance concrete

Reutlinger, Christopher George

08 1900

No description available.

High strength concrete

Concrete beams Testing

Prestressed concrete Testing

Development of high strength / high performance concretes for use in precast prestressed bridges

Travis, Douglas Lee

12 1900

No description available.

High strength concrete

Bridges Georgia

Bridges, Concrete Georgia

Time-dependent behavior of high-performance concrete

Shams, Mohamed Khalil

05 1900

No description available.

High strength concrete Testing

Concrete construction

Bridges, Concrete

Development length of 06-inch diameter prestressing strand in high-performance concrete

Dill, Jason Cameron

05 1900

No description available.

High strength concrete

Prestressed concrete construction

Bridges, Concrete

Seismic retrofitting of rectangular reinforced concrete columns with partial interaction plating /

Wu, Y. F.

January 2002

Thesis (Ph.D.)--University of Adelaide, Dept. of Civil and Environmental Engineering, 2002. / "June 2002" Includes bibliographical references (leaves 349-374).