Sufen Dong, Xinyue Wang, Baoguo Han
Stainless Steel Wires-Engineered Multifunctional Ultra-High Performance Concrete
Sufen Dong, Xinyue Wang, Baoguo Han
Stainless Steel Wires-Engineered Multifunctional Ultra-High Performance Concrete
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This is the first reference work on multifunctional ultra-high performance concrete engineered with stainless steel wires and provides a summary of research results, covering basic principles, properties, mechanisms, engineering application cases, and future development challenges and strategies.
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This is the first reference work on multifunctional ultra-high performance concrete engineered with stainless steel wires and provides a summary of research results, covering basic principles, properties, mechanisms, engineering application cases, and future development challenges and strategies.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 372
- Erscheinungstermin: 19. Oktober 2023
- Englisch
- Abmessung: 234mm x 156mm x 22mm
- Gewicht: 735g
- ISBN-13: 9781032232362
- ISBN-10: 1032232366
- Artikelnr.: 69115648
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 372
- Erscheinungstermin: 19. Oktober 2023
- Englisch
- Abmessung: 234mm x 156mm x 22mm
- Gewicht: 735g
- ISBN-13: 9781032232362
- ISBN-10: 1032232366
- Artikelnr.: 69115648
Sufen Dong is associate professor of transportation and logistics at Dalian University of Technology. She was named in the World's Top 2% Scientists by Stanford University in 2022. Xinyue Wang is a postdoctoral fellow at School of Civil Engineering, Dalian University of Technology. He was awarded the Young Scientist Medal by the International Association of Advanced Materials in 2022. Baoguo Han is professor of civil engineering at Dalian University of Technology and a Fellow of the International Association of Advanced Materials. He was awarded first prize of Natural Science by the Ministry of Education of China, and has been named in the World's Top 2% Scientists by Stanford University.
1. Design principle and fabrication of stainless steel wires
engineered multifunctional ultra
high performance concrete. 2. Flexural and compressive properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 3. Bending and fracture properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 4. Impact properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 5. Fatigue properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 6. Electrical and self
sensing properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 7. Thermal and electrothermal properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 8. Wear resistance, damping and electromagnetic properties of stainless steel wires
engineered ultra
high performance concrete. 9. Stainless steel wires
engineered multifunctional ultra
high performance concrete incorporating nano fillers. 10. Stainless steel wires
engineered multifunctional ultra
high performance concrete incorporating steel fibers. 11. Stainless steel wires
engineered multifunctional ultra
high performance concrete fabricating with sea water and sea sand. 12. Future development and challenges of stainless steel wires
engineered multifunctional ultra
high performance concrete.
engineered multifunctional ultra
high performance concrete. 2. Flexural and compressive properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 3. Bending and fracture properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 4. Impact properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 5. Fatigue properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 6. Electrical and self
sensing properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 7. Thermal and electrothermal properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 8. Wear resistance, damping and electromagnetic properties of stainless steel wires
engineered ultra
high performance concrete. 9. Stainless steel wires
engineered multifunctional ultra
high performance concrete incorporating nano fillers. 10. Stainless steel wires
engineered multifunctional ultra
high performance concrete incorporating steel fibers. 11. Stainless steel wires
engineered multifunctional ultra
high performance concrete fabricating with sea water and sea sand. 12. Future development and challenges of stainless steel wires
engineered multifunctional ultra
high performance concrete.
1. Design principle and fabrication of stainless steel wires
engineered multifunctional ultra
high performance concrete. 2. Flexural and compressive properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 3. Bending and fracture properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 4. Impact properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 5. Fatigue properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 6. Electrical and self
sensing properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 7. Thermal and electrothermal properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 8. Wear resistance, damping and electromagnetic properties of stainless steel wires
engineered ultra
high performance concrete. 9. Stainless steel wires
engineered multifunctional ultra
high performance concrete incorporating nano fillers. 10. Stainless steel wires
engineered multifunctional ultra
high performance concrete incorporating steel fibers. 11. Stainless steel wires
engineered multifunctional ultra
high performance concrete fabricating with sea water and sea sand. 12. Future development and challenges of stainless steel wires
engineered multifunctional ultra
high performance concrete.
engineered multifunctional ultra
high performance concrete. 2. Flexural and compressive properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 3. Bending and fracture properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 4. Impact properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 5. Fatigue properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 6. Electrical and self
sensing properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 7. Thermal and electrothermal properties of stainless steel wires
engineered multifunctional ultra
high performance concrete. 8. Wear resistance, damping and electromagnetic properties of stainless steel wires
engineered ultra
high performance concrete. 9. Stainless steel wires
engineered multifunctional ultra
high performance concrete incorporating nano fillers. 10. Stainless steel wires
engineered multifunctional ultra
high performance concrete incorporating steel fibers. 11. Stainless steel wires
engineered multifunctional ultra
high performance concrete fabricating with sea water and sea sand. 12. Future development and challenges of stainless steel wires
engineered multifunctional ultra
high performance concrete.