Add to ORKGDesign optimization studies indicate that a significant reduction in the size of the PCRV for a 2240 MW(t) HTGR plant can be effected through utilization of high-strength concrete in conjunction with large capacity prestressing systems. A three-phase test program to develop and evaluate high-strength concretes (>63.4 MPa) is described. Results obtained under Phase I of the investigation related to materials selection-evaluation and mix design development are presented. 3 refs., 4 figs
In Korea, attempts have been made to develop high strength concrete for the safety and design life i...
High compressive strength heavyweight concrete specimens were prepared using two types of high densi...
The paper discusses special features of the concept of a dried hot prestressed concrete reactor vess...
High performance concrete (HPC) is a new class of concrete that has superior characteristics compare...
Reported are preliminary results of a study at the Argonne National laboratory, the objective of whi...
It was learned that all cements and aggregates in the test group appear suitable for producing HPC, ...
This lecture reviews new developments in analysis and design of prestressed concrete reactor vessels...
Thesis describes properties of HPC compared to concretes of normal and high strength. It further des...
The design philosophy of prestressed concrete pressure vessels is examined with particular reference...
High compressive strength heavyweight concrete specimens were prepared using two types of high-densi...
computer program DYNAPCON for the transient analysis of a prestressed concrete reactor vessel (PCRV)...
Concentrated efforts to develop technology for the streamlining of construction work and to affect l...
This article outlines a numerical study on the benefit of using high-performance and high-strength c...
An optimization experimental program was designed to identify a desired balance of key mix design pa...
Two single-cavity prestressed concrete reactor vessel (PCRV) models were fabricated and tested to fa...
In Korea, attempts have been made to develop high strength concrete for the safety and design life i...
High compressive strength heavyweight concrete specimens were prepared using two types of high densi...
The paper discusses special features of the concept of a dried hot prestressed concrete reactor vess...
High performance concrete (HPC) is a new class of concrete that has superior characteristics compare...
Reported are preliminary results of a study at the Argonne National laboratory, the objective of whi...
It was learned that all cements and aggregates in the test group appear suitable for producing HPC, ...
This lecture reviews new developments in analysis and design of prestressed concrete reactor vessels...
Thesis describes properties of HPC compared to concretes of normal and high strength. It further des...
The design philosophy of prestressed concrete pressure vessels is examined with particular reference...
High compressive strength heavyweight concrete specimens were prepared using two types of high-densi...
computer program DYNAPCON for the transient analysis of a prestressed concrete reactor vessel (PCRV)...
Concentrated efforts to develop technology for the streamlining of construction work and to affect l...
This article outlines a numerical study on the benefit of using high-performance and high-strength c...
An optimization experimental program was designed to identify a desired balance of key mix design pa...
Two single-cavity prestressed concrete reactor vessel (PCRV) models were fabricated and tested to fa...
In Korea, attempts have been made to develop high strength concrete for the safety and design life i...
High compressive strength heavyweight concrete specimens were prepared using two types of high densi...
The paper discusses special features of the concept of a dried hot prestressed concrete reactor vess...