01-01-2013, 02:46 AM
Strength and Related Properties of Concrete: A Quantitative Approach
by
Sándor Popovics
Wiley, 23-Mar-1998 - 535 pages
Quantitative tools for evaluating and improving the strength of concrete
Concrete is a complex material of vital importance to the civil engineering and construction industries. Strength and Related Properties of Concrete addresses the most important single property of concrete--its strength--with the goal of contributing to concrete's technical and economical improvement. The book is unique in containing, in a single volume, all of the quantitative tools needed to evaluate, understand, and improve concrete quality.
This hands-on guide demonstrates how to fine-tune the composition of concrete to maximize its strength. It presents the best numerical relationships for concrete technology that are currently available, examines them experimentally, and illustrates their practical applications. It also provides a basis for improving both the fundamentals of concrete technology and the way this technology is taught to engineering students. Computerized formulas for strength testing are included on a floppy disk.
Topics covered include:
* Proven methods for testing compressive strength
* Important relationships between composition and strength of concrete
* Timely applications of advanced cement-based materials
* Elastic deformations of concrete
* Essential properties of cement pastes
by
Sándor Popovics
Wiley, 23-Mar-1998 - 535 pages
Quantitative tools for evaluating and improving the strength of concrete
Concrete is a complex material of vital importance to the civil engineering and construction industries. Strength and Related Properties of Concrete addresses the most important single property of concrete--its strength--with the goal of contributing to concrete's technical and economical improvement. The book is unique in containing, in a single volume, all of the quantitative tools needed to evaluate, understand, and improve concrete quality.
This hands-on guide demonstrates how to fine-tune the composition of concrete to maximize its strength. It presents the best numerical relationships for concrete technology that are currently available, examines them experimentally, and illustrates their practical applications. It also provides a basis for improving both the fundamentals of concrete technology and the way this technology is taught to engineering students. Computerized formulas for strength testing are included on a floppy disk.
Topics covered include:
* Proven methods for testing compressive strength
* Important relationships between composition and strength of concrete
* Timely applications of advanced cement-based materials
* Elastic deformations of concrete
* Essential properties of cement pastes