Properties and Design Characteristics of the Fiber Concrete

Autor: S. Moskovsky, Vasiliy S. Rudnov, V. Belyakov
Jazyk: angličtina
Rok vydání: 2016
Předmět:
STRUCTURE OF CONCRETE
Engineering
Bending (metalworking)
TECHNOLOGICAL PROCESS
CONCRETE BUILDINGS
REINFORCED CONCRETE
Mechanical engineering
02 engineering and technology
METAL WORKING
Bridge (nautical)
law.invention
STEEL FIBERS
0203 mechanical engineering
law
Function (engineering)
Engineering(all)
glass
media_common
structure of concrete
density
CONSTRUCTION
General Medicine
Structural engineering
021001 nanoscience & nanotechnology
Compression (physics)
020303 mechanical engineering & transports
fiber concrete
DESIGN CHARACTERISTICS
properties of material
0210 nano-technology
Process (engineering)
media_common.quotation_subject
BUILDING CONSTRUCTION
GLASS
STRIPS
MACHINE TOOLS
COMPRESSION RESISTANCE
FIBER-CONCRETE
Lead (geology)
STRINGENT REQUIREMENT
REINFORCE CONCRETE STRUCTURE
steel
CONCRETE CONSTRUCTION
DENSITY (SPECIFIC GRAVITY)
business.industry
Fiber (mathematics)
STEEL
FIBER CONCRETE
INTEGRITY MAINTENANCE
PROPERTIES OF MATERIAL
DENSITY
business
CONCRETES
Zdroj: Procedia Engineering
Popis: Under the contemporary conditions of permanent construction complication, the volume of reinforce-concrete structures that are in the process of exploitation of building function in the conditions of difficult loading is growing: they are exposed to the slanting bend, twisting and dynamic influences. These structures include foundations and ceilings of productive buildings installed with the use of vibrating equipment (flatting mills, press, metal-working machine-tools), beams for a faucet, highway coverage, bridge elements, air strips of the air fields, body elements of hydro energetic objects. The complex loaded structures shall meet the stringent requirements not only in terms of bending and compression resistance but also in terms of structural integrity maintenance (crack resistance). In case of the technological process change or formation of defects and damages, repair of these elements is not possible - they can be only replaced, and this will demand to stop the production, sort out a high-cube of reinforced-concrete structures and, consequently, lead to material expenses comparable with a new building construction. An increase of the exploitation term of the complex loaded reinforce-concrete structures is a topical and economically demanded research. © 2016 Published by Elsevier Ltd.
Databáze: OpenAIRE
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