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In this work experimental tests are performed to investigate the forming behavior of unidirectional non-crimp fabrics (UD-NCFs) within the context of an automated preforming process. Based on the experimental results, a macroscopic forming simulation model for UD-NCFs is developed and model parameters are identified via the simulation of material tests. The forming simulation model is validated via hemisphere and car body part forming tests.
unidirektionale Gelege --- unidirectional non-crimped fabric --- Faserverbundwerkstoffe --- Preforming --- forming/draping simulation --- preforming --- fibre composites --- Umform-/Drapiersimulation --- experimentelle Charakterisierung --- material testing
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Structural analysis (Engineering) --- Materials --- Structural dynamics --- Structural dynamics. --- Fatigue --- Testing --- Fatigue. --- Testing. --- structural engineering --- risk --- fatigue --- material testing --- Fatigue of materials --- Fracture mechanics --- Strains and stresses --- Strength of materials --- Structural failures --- Vibration --- Building dynamics --- Dynamics, Structural --- Structural vibration --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Architectural engineering --- Engineering, Architectural --- Structural mechanics --- Structures, Theory of --- Structural engineering --- Dynamic testing
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This reprint presents a collection of contributions on the application of high-performing computational strategies and enhanced theoretical formulations to solve a wide variety of linear or nonlinear problems in a multiphysical sense, together with different experimental studies.
nanotwin --- detwinning --- extreme hardness --- excellent stability --- electrospinning --- nanofibrous membrane --- geometric modeling --- uniaxial tensile --- buckling --- electromagnetic field --- nanobeam --- shifted chebyshev polynomial --- rayleigh-ritz method --- nanocomposites --- FG-CNTRC --- truncated cone --- critical combined loads --- multi-scale mechanics --- finite element analysis --- material testing --- cellulose nanofiber --- polymer composites --- tensile modulus --- cove-edges --- defects --- fracture --- graphene --- molecular dynamics --- strength --- recycling --- circular economy --- nanometric carbon-based ashes --- AJ®P --- non-piezoelectric polymers --- tactile sensors --- robotic gripper --- fluorinated epoxy resin --- fluorinated graphene oxide --- ordered filling --- elastic modulus --- glass transition temperature --- microscopic parameters --- surface bonding --- nanocone arrays --- molecular dynamics simulation --- axially functionally graded materials --- differential quadrature method --- flexural–torsional buckling --- nonlocal elasticity theory --- tapered I-beam --- n/a --- flexural-torsional buckling
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Dental implant materials are advancing in the fusion of various scientific fields. Surface modification technologies for implants have been applied to titanium at the micro-level for about four decades. Now, implant surfaces are being topographically and chemically modified at both the micro- and nano-level. The modification techniques are altering other metals and ceramics, making these materials more biocompatible. Materials for abutments in dental implant systems appear to depend on implant–abutment connection structures. Biomechanical factors, such as friction and preload, influence the development of the abutment materials. Additionally, the surfaces of the abutment materials are important in the soft-tissue attachment, which is being actively investigated. As dental implants have to be functional in human bodies for a long time, numerous materials are being clinically tested as implant-supported restorations. The Special Issue, “Dental Implant Materials 2019”, introduces the creative works of scientists on the current advancements in the field of materials for implant dentistry.
Medicine --- osseointegration --- titanium --- bone–implant interface --- shear strength --- torque --- dental implants --- photofunctionalization --- ultraviolet light --- surface treatment --- CAD/CAM all-ceramic restoration --- fracture strength --- liner treatment --- resin cement --- tensile bond strength --- zirconia abutment --- monolithic zirconia --- multi-unit abutment --- titanium base --- mechanical stress --- fatigue --- dental implant–abutment connection --- dental implant–abutment design --- vitronectin --- RVYFFKGKQYWE motif --- cellular responses --- abutment --- dental implant --- implant connection --- marginal bone --- peri-implantitis --- surface modification --- SLA --- TiO2 nanotube --- fluoride --- zirconia --- ceramics --- aging --- artificial mouth --- fracture load --- chewing simulation --- meta-analysis --- implant-abutment connection --- settling effect --- static loading --- removal torque --- dental implant neck design --- peri-implant bone loss --- peri-implant probing depth --- dental materials --- finite element analysis --- material testing --- tissue differentiation --- bone remodeling --- mechano-regulation theory --- short-term healing --- long-term healing --- osseointegration --- titanium --- bone–implant interface --- shear strength --- torque --- dental implants --- photofunctionalization --- ultraviolet light --- surface treatment --- CAD/CAM all-ceramic restoration --- fracture strength --- liner treatment --- resin cement --- tensile bond strength --- zirconia abutment --- monolithic zirconia --- multi-unit abutment --- titanium base --- mechanical stress --- fatigue --- dental implant–abutment connection --- dental implant–abutment design --- vitronectin --- RVYFFKGKQYWE motif --- cellular responses --- abutment --- dental implant --- implant connection --- marginal bone --- peri-implantitis --- surface modification --- SLA --- TiO2 nanotube --- fluoride --- zirconia --- ceramics --- aging --- artificial mouth --- fracture load --- chewing simulation --- meta-analysis --- implant-abutment connection --- settling effect --- static loading --- removal torque --- dental implant neck design --- peri-implant bone loss --- peri-implant probing depth --- dental materials --- finite element analysis --- material testing --- tissue differentiation --- bone remodeling --- mechano-regulation theory --- short-term healing --- long-term healing
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This reprint presents a collection of contributions on the application of high-performing computational strategies and enhanced theoretical formulations to solve a wide variety of linear or nonlinear problems in a multiphysical sense, together with different experimental studies.
Technology: general issues --- History of engineering & technology --- nanotwin --- detwinning --- extreme hardness --- excellent stability --- electrospinning --- nanofibrous membrane --- geometric modeling --- uniaxial tensile --- buckling --- electromagnetic field --- nanobeam --- shifted chebyshev polynomial --- rayleigh-ritz method --- nanocomposites --- FG-CNTRC --- truncated cone --- critical combined loads --- multi-scale mechanics --- finite element analysis --- material testing --- cellulose nanofiber --- polymer composites --- tensile modulus --- cove-edges --- defects --- fracture --- graphene --- molecular dynamics --- strength --- recycling --- circular economy --- nanometric carbon-based ashes --- AJ®P --- non-piezoelectric polymers --- tactile sensors --- robotic gripper --- fluorinated epoxy resin --- fluorinated graphene oxide --- ordered filling --- elastic modulus --- glass transition temperature --- microscopic parameters --- surface bonding --- nanocone arrays --- molecular dynamics simulation --- axially functionally graded materials --- differential quadrature method --- flexural-torsional buckling --- nonlocal elasticity theory --- tapered I-beam --- nanotwin --- detwinning --- extreme hardness --- excellent stability --- electrospinning --- nanofibrous membrane --- geometric modeling --- uniaxial tensile --- buckling --- electromagnetic field --- nanobeam --- shifted chebyshev polynomial --- rayleigh-ritz method --- nanocomposites --- FG-CNTRC --- truncated cone --- critical combined loads --- multi-scale mechanics --- finite element analysis --- material testing --- cellulose nanofiber --- polymer composites --- tensile modulus --- cove-edges --- defects --- fracture --- graphene --- molecular dynamics --- strength --- recycling --- circular economy --- nanometric carbon-based ashes --- AJ®P --- non-piezoelectric polymers --- tactile sensors --- robotic gripper --- fluorinated epoxy resin --- fluorinated graphene oxide --- ordered filling --- elastic modulus --- glass transition temperature --- microscopic parameters --- surface bonding --- nanocone arrays --- molecular dynamics simulation --- axially functionally graded materials --- differential quadrature method --- flexural-torsional buckling --- nonlocal elasticity theory --- tapered I-beam
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Manufacturers of soft polymer products, as well as suppliers and processors of polymers, raw materials, and compounds or blends are compelled to use predictive and advanced laboratory testing in their search for high-performance soft polymer materials for future applications. The collection of 12 publications contained in this edition therefore presents different methods used to solve problems in the characterization of various phenomena in soft polymer materials, asks relevant questions and offers appropriate solutions.
Research & information: general --- Physics --- ultraviolet radiation --- thermoplastic elastomer --- high vinyl S-B-S --- photoinitiator --- mechanical properties --- rubber --- curing --- bismaleimide --- tensile strength --- Diels–Alder reaction --- effective electrical resistance --- elastomer sensors --- natural rubber --- local strain --- conductive filler --- digital image correlation --- strain sweep --- rheometer --- rubber process analyzer --- swelling --- absorption --- infrared spectroscopy --- mass spectrometry --- gas chromatography --- mechanical behavior --- synthetic aviation fuels --- 3D printed elastomers --- elastomer --- fast characterization --- energy stored and released --- heat source reconstruction --- intrinsic dissipation --- infrared thermography --- engine mount --- elastomer characterisation --- experimental testing --- resonance frequency --- dynamic stiffness --- parameter identification --- electrodynamic shaker --- test bench --- cogging torque --- synchronous machine --- carbon black --- tensile --- Mullins effect --- Payne effect --- dynamic strain --- hysteresis --- material testing --- rheology --- Poisson’s ratio --- viscoelasticity --- plasticizer --- polarity --- carbon black network --- simultaneous mechanical and dielectric analysis --- mechanical stability --- glass transition --- kinetics --- resin --- BDS --- FDSC --- nanocomposites --- carbon nanotubes --- atomic force microscopy --- dynamical mechanical analysis
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This reprint presents a collection of contributions on the application of high-performing computational strategies and enhanced theoretical formulations to solve a wide variety of linear or nonlinear problems in a multiphysical sense, together with different experimental studies.
Technology: general issues --- History of engineering & technology --- nanotwin --- detwinning --- extreme hardness --- excellent stability --- electrospinning --- nanofibrous membrane --- geometric modeling --- uniaxial tensile --- buckling --- electromagnetic field --- nanobeam --- shifted chebyshev polynomial --- rayleigh-ritz method --- nanocomposites --- FG-CNTRC --- truncated cone --- critical combined loads --- multi-scale mechanics --- finite element analysis --- material testing --- cellulose nanofiber --- polymer composites --- tensile modulus --- cove-edges --- defects --- fracture --- graphene --- molecular dynamics --- strength --- recycling --- circular economy --- nanometric carbon-based ashes --- AJ®P --- non-piezoelectric polymers --- tactile sensors --- robotic gripper --- fluorinated epoxy resin --- fluorinated graphene oxide --- ordered filling --- elastic modulus --- glass transition temperature --- microscopic parameters --- surface bonding --- nanocone arrays --- molecular dynamics simulation --- axially functionally graded materials --- differential quadrature method --- flexural–torsional buckling --- nonlocal elasticity theory --- tapered I-beam --- n/a --- flexural-torsional buckling
Choose an application
Dental implant materials are advancing in the fusion of various scientific fields. Surface modification technologies for implants have been applied to titanium at the micro-level for about four decades. Now, implant surfaces are being topographically and chemically modified at both the micro- and nano-level. The modification techniques are altering other metals and ceramics, making these materials more biocompatible. Materials for abutments in dental implant systems appear to depend on implant–abutment connection structures. Biomechanical factors, such as friction and preload, influence the development of the abutment materials. Additionally, the surfaces of the abutment materials are important in the soft-tissue attachment, which is being actively investigated. As dental implants have to be functional in human bodies for a long time, numerous materials are being clinically tested as implant-supported restorations. The Special Issue, “Dental Implant Materials 2019”, introduces the creative works of scientists on the current advancements in the field of materials for implant dentistry.
osseointegration --- titanium --- bone–implant interface --- shear strength --- torque --- dental implants --- photofunctionalization --- ultraviolet light --- surface treatment --- CAD/CAM all-ceramic restoration --- fracture strength --- liner treatment --- resin cement --- tensile bond strength --- zirconia abutment --- monolithic zirconia --- multi-unit abutment --- titanium base --- mechanical stress --- fatigue --- dental implant–abutment connection --- dental implant–abutment design --- vitronectin --- RVYFFKGKQYWE motif --- cellular responses --- abutment --- dental implant --- implant connection --- marginal bone --- peri-implantitis --- surface modification --- SLA --- TiO2 nanotube --- fluoride --- zirconia --- ceramics --- aging --- artificial mouth --- fracture load --- chewing simulation --- meta-analysis --- implant-abutment connection --- settling effect --- static loading --- removal torque --- dental implant neck design --- peri-implant bone loss --- peri-implant probing depth --- dental materials --- finite element analysis --- material testing --- tissue differentiation --- bone remodeling --- mechano-regulation theory --- short-term healing --- long-term healing --- n/a
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