Testing of Materials and Elements in Civil Engineering . Volume 2

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Titolo:	Testing of Materials and Elements in Civil Engineering . Volume 2
Pubblicazione:	Basel, Switzerland : , : MDPI - Multidisciplinary Digital Publishing Institute, , 2021
Descrizione fisica:	1 electronic resource (578 pages)
Soggetto topico:	Technology
Soggetto non controllato:	rock bolt
	grouting quality
	dynamic response
	natural frequency
	finite element method
	monitoring
	historical masonry wall
	hygrothermal processes
	internal insulation
	testing of building materials
	test uncertainty
	validation of test methods
	sustainable test methods
	recycling
	foamed asphalt mixtures with cement (FAC)
	base layer
	reclaimed asphalt pavement (RAP)
	fatigue durability
	GFRP
	FRP reinforcement
	shear
	capacity
	reinforced concrete beams
	column
	stiffness
	FRCM
	PBO mesh
	PBO–FRCM
	carpentry joints
	scarf and splice joints
	stop-splayed scarf joints (‘bolt of lightning’)
	static behaviour
	experimental research
	concrete
	non-destructive testing
	ultrasounds
	ultrasonic tomography
	acoustic methods
	defects
	diagnostic
	detection
	convolutional neural networks
	transfer learning
	monitoring FBG
	power transmission tower
	civil engineering
	X-ray microtomography
	microstructure characteristics
	infiltration damage
	high-strength concrete
	steel fibres
	flexural tensile strength
	fracture energy
	numerical analysis
	concrete floors
	compressive strength
	strength distribution
	industrial floors
	ultrasound tests
	ventilated facades
	large-scale facade model
	fire safety
	fiber cement board
	large-slab ceramic tile
	plasterboards
	moisture content
	hydration processes
	mechanical properties
	ultrasound measurements
	ESD resin
	expansion joint
	quasi-plastic material
	energy absorption
	asphalt mix
	compaction index
	volumetric parameters
	stiffness modulus
	moisture resistance
	roughness
	texture
	close-range photogrammetry
	bond strength
	random field generation
	semivariograms
	hybrid truss bridge
	steel–concrete connection joint
	mechanical behavior
	failure mode
	strain
	static test
	static elastic modulus
	dynamic elastic modulus
	machine learning
	P-wave
	S-wave
	resonance frequency test
	nondestructive method
	Al–Ti laminate
	fracture
	acoustic emission diagnostic
	pattern recognition
	clustering AE signal
	storage systems
	tab connector
	flexural test
	capable design moment
	restrained ring test
	autogenous shrinkage cracking
	concrete cracking test
	concrete shrinkage cracking test
	restrined ring calibration
	cement–fiber boards
	acoustic emission method
	k-means algorithm
	wavelet analysis
	fiber composites
	ground penetrating radar (GPR)
	HMA dielectric constant
	road pavement thickness estimation
	early age concrete
	damage processes detection before loading
	strength of structures
	aggregate
	classification
	wire mesh
	roundness
	tilting angle
	opening size
	concrete centrifugation
	morphology
	image processing
	porosity
	cement
	waste paper sludge ash (WPSA)
	controlled low-strength material (CLSM)
	unconfined compressive strength
	bearing capacity
	backfill material
	P-wave velocity
	amplitude attenuation
	resistivity
	CT scan
	sandstone
	damage variable
	nuclear magnetic resonance
	spin-lattice relaxometry
	proton
	hydration kinetics
	superplasticizer
	ready-mixed concrete
	construction material
	quality assessment
	conformity criteria
	statistical-fuzzy method
	FRTP
	rivet
	connection
	polyethylene pipe
	mechanical properties of polyethylene
	resistance strain
	computer simulation
	residual shear stress
	particle crushing
	ring shear test
	particle flow code (PFC2D)
	frictional work
	fibre-reinforced concrete
	recycled steel fibres
	micro-computed tomography
	scanning electron microscopy
	tensile strength
	reinforced concrete
	diagnostic testing
	corrosion
	carbonation
	galvanostatic pulse method
	phase composition analysis
	X-ray analysis
	thermal analysis
	quasi-brittle cement composites
	low-module polypropylene fibres
	elastic range
	digital image correlation
	Arcan shear test
	wood
	orthotropic shear modulus
	elastic-plastic material
	shear wave velocity
	sand
	bender elements test
	grain-size characteristics
	complex modulus
	shrinkage analysis
	reclaimed asphalt
	mineral–cement emulsion mixtures
	cement dusty by-products (UCPPs)
	degradation of glass panels
	effective area ratio
	relative mass loss
	visible light transmittance
	windblown sand
	wood-plastic composites
	methods of testing resistance to fungi
	methods of assessment
	ground-penetrating radar (GPR)
	non-destructive techniques (NDT)
	corrosion of reinforcement
	slip resistance
	granite floor
	slip resistance value
	ramp test
	acceptance angle
	sliding friction coefficient
	comparability of test methods
	wall temperature
	fibre bragg grating sensors
	freeze-thaw cycles
	signal analysis
	short-time Fourier transform
	fast Fourier transform
	brine
	sodium chloride
	X-ray
	partition walls
	brick walls
	bending strength
	cracking
	post-tension
	cable
	girder
	destructive test
	non-destructive test
	structural health monitoring
	safety
	monitoring fibre Bragg grating
	mining areas
	strain/stress distribution
	geopolymer concrete
	fly-ash
	bottom-ash
	neural network
	sustainability
	industrial waste management
	flexural strength
	cladding
	AE acoustic emission
	micro-events
	sound spectrum
	traditional and quasi-brittle cement composites
	residual-state creep
	saturation front
	landslides
	erosional stability
	laboratory testing
	grout mixtures
	groundwater
	test apparatus
	testing
	building materials
	elements
Persona (resp. second.):	SchabowiczKrzysztof
Sommario/riassunto:	This book was proposed and organized as a means to present recent developments in the field of testing of materials and elements in civil engineering. For this reason, the articles highlighted in this editorial relate to different aspects of testing of different materials and elements in civil engineering, from building materials to building structures. The current trend in the development of testing of materials and elements in civil engineering is mainly concerned with the detection of flaws and defects in concrete elements and structures, and acoustic methods predominate in this field. As in medicine, the trend is towards designing test equipment that allows one to obtain a picture of the inside of the tested element and materials. Interesting results with significance for building practices were obtained.
Titolo autorizzato:	Testing of Materials and Elements in Civil Engineering
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910557365603321
Lo trovi qui:	Univ. Federico II
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