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House construction. --- Pipe joints. --- Plumbing. --- Solder and soldering. --- Tubes, Copper.
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House construction. --- Pipe joints. --- Plumbing. --- Solder and soldering. --- Tubes, Copper. --- House construction. --- Pipe joints. --- Plumbing. --- Solder and soldering. --- Tubes, Copper.
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Selected papers from Pipelines 2020, held in San Antonio, Texas, August 9–12, 2020. Sponsored by the Utility Engineering and Surveying Institute of ASCE.This collection contains 45 peer-reviewed papers on utility engineering, surveying, and multidisciplinary topics.Topics include: modeling pipeline systems; monitoring pressure and leaks; pipe joints; pipe materials; and surveying.This valuable resource for practitioners and researchers covers the most current state-of-the-art engineering technologies for pipeline and utilities infrastructure and engineering surveying.
Pipe joints. --- Utilities --- Pipe joints --- Pipe materials --- Pipelines --- Pipe leakage --- Pressure pipes --- Systems engineering --- Pipeline materials --- Texas --- United States --- Utilities --- Pipe joints --- Pipe materials --- Pipelines --- Pipe leakage --- Pressure pipes --- Systems engineering --- Pipeline materials --- Texas --- United States
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Proceedings of the International Conference on Pipelines and Trenchless Technology, held in Xiamen, China, November 13-15, 2014. Sponsored by the Pipeline Division of ASCE; China-U.S. Joint Center for Trenchless Research and Development at China University of Geosciences-Wuhan; the Center for Underground Infrastructure Research and Education (CUIRE) at the University of Texas at Arlington; the Wuhan PipeTong Trenchless Technology Co. Ltd. This collection contains 97 peer-reviewed papers that focus on trenchless technology and pipeline engineering. Topics include: pipeline condition assessment and monitoring; risk assessment and pipe failures; hydraulic modeling; corrosion control and leak detection; project planning and installation; inspection and rehabilitation of pipes; research and development; and applications of trenchless technologies. These papers will be of interest to both researchers and practitioners working with trenchless technology and the pipeline industry.
Infrastructure --- Trenchless technology --- Sustainable development --- Pipelines --- Pipe leakage --- Pipeline hydraulics --- Pipeline management --- Pipe joints --- Infrastructure --- Trenchless technology --- Sustainable development --- Pipelines --- Pipe leakage --- Pipeline hydraulics --- Pipeline management --- Pipe joints
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Selected papers from Pipelines 2019, held in Nashville, Tennessee, July 21–24, 2019. Sponsored by the Utility Engineering and Surveying Institute of ASCE.This collection contains 60 peer-reviewed papers on multidisciplinary topics, utility engineering, and surveying of utilities. Topics include: modeling and monitoring; pigging; multidisciplinary approaches to pipeline issues; pipe joints; pipe materials; and rehabilitation materials.This collection will be of interest to utility and pipeline owners, design and consulting engineers, contractors, manufacturers, suppliers, researchers, and pipeline professionals.
Pipelines --- Civil engineering --- Utilities --- Pipe materials --- Pipe joints --- Pipe cleaning --- Pipelines --- Pipeline materials --- Pipeline management --- Consulting services --- Utilities --- Pipe materials --- Pipe joints --- Pipe cleaning --- Pipelines --- Pipeline materials --- Pipeline management --- Consulting services
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Proceedings of the International Conference, held in Boston, Massachusetts, June 8–11, 1997. Sponsored by the Pipeline Division of ASCE. This collection contains 59 papers on trenchless pipeline technologies that provide an opportunity to learn from the on-site experiences of leading experts in the field. Papers describe recent and current projects, the challenges that had to be overcome, and the solutions used. The technologies and methodologies in use today are presented, as well as those that will be emerging in the years ahead. Topics include: case histories; microtunnelling; sliplining; pipe jacking; pipe rehabilitation; service laterals; manholes; inspection/evaluation methods; grouting/joint seals; gas pipelines; materials research; new construction; and the future of trenchless technology. This proceedings will be of interest to researchers and practitioners working in all aspects of trenchless pipeline technology.
Pipelines --- Trenchless construction --- Gas pipelines --- Pipe materials --- Concrete pipes --- Pipeline materials --- Pipe networks --- Plastic pipes --- Pipe joints --- Pressure pipes --- Design and construction --- Gas pipelines --- Pipe materials --- Concrete pipes --- Pipeline materials --- Pipe networks --- Plastic pipes --- Pipe joints --- Pressure pipes
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Waterworks --- Water --- Water quality --- Groundwater --- Wells --- Rain and rainfall --- Pumping stations --- Water-pipes --- Pipe joints --- Tanks --- Water --- Sewage --- Open-channel flow --- Air entrainment --- Purification --- Purification --- Filtration
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Shape memory alloys (SMAs), in comparison with other materials, have the exceptional ability to change their properties, structure, and functionality depending on the thermal, magnetic, and/or stress fields applied. As is well known, in recent decades, the development of SMAs has allowed innovative solutions and alternatives in biomedical applications and advanced engineering structures for aerospace and automotive industries as well as in sensor and actuation systems, among other sectors. Irrespective of this, designing and engineering using these special smart materials requires a solid background in materials science in order to consolidate their importance in these fields and to broaden their relevance for other new applications. The goal of this Special Issue is to foster the dissemination of some of the latest research devoted to these special materials from different perspectives.
Technology: general issues --- shape memory alloys --- cyclic tests --- fatigue test --- energy dissipation --- earthquake engineering --- NiTiNb --- anisotropy --- texture --- SME --- pipe joints --- NiTi --- selective laser melting --- additive manufacturing --- lattice structure --- EBSD --- superelasticity --- metamagnetic shape memory alloys --- structural defects --- magnetocaloric effect --- mechanical damping --- martensitic transitions --- phonon softening --- resonant ultrasound spectroscopy --- laser-ultrasound --- elastic constants --- high-temperature shape memory alloys --- titanium palladium --- titanium platinum --- multi-component alloys --- medium-entropy alloys --- high-entropy alloys --- laser powder bed fusion --- density control --- structure control --- process simulation --- shape memory alloy --- Fe-Mn-Al-Ni --- cyclic heat treatment --- co-based Heusler alloy --- martensitic transformation --- metamagnetic shape memory alloy --- phase diagram --- magnetic-field-induced transition --- intermetallic --- microstructure --- differential scanning calorimetry --- X-ray diffraction --- mechanical testing --- shape memory alloys --- cyclic tests --- fatigue test --- energy dissipation --- earthquake engineering --- NiTiNb --- anisotropy --- texture --- SME --- pipe joints --- NiTi --- selective laser melting --- additive manufacturing --- lattice structure --- EBSD --- superelasticity --- metamagnetic shape memory alloys --- structural defects --- magnetocaloric effect --- mechanical damping --- martensitic transitions --- phonon softening --- resonant ultrasound spectroscopy --- laser-ultrasound --- elastic constants --- high-temperature shape memory alloys --- titanium palladium --- titanium platinum --- multi-component alloys --- medium-entropy alloys --- high-entropy alloys --- laser powder bed fusion --- density control --- structure control --- process simulation --- shape memory alloy --- Fe-Mn-Al-Ni --- cyclic heat treatment --- co-based Heusler alloy --- martensitic transformation --- metamagnetic shape memory alloy --- phase diagram --- magnetic-field-induced transition --- intermetallic --- microstructure --- differential scanning calorimetry --- X-ray diffraction --- mechanical testing
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Shape memory alloys (SMAs), in comparison with other materials, have the exceptional ability to change their properties, structure, and functionality depending on the thermal, magnetic, and/or stress fields applied. As is well known, in recent decades, the development of SMAs has allowed innovative solutions and alternatives in biomedical applications and advanced engineering structures for aerospace and automotive industries as well as in sensor and actuation systems, among other sectors. Irrespective of this, designing and engineering using these special smart materials requires a solid background in materials science in order to consolidate their importance in these fields and to broaden their relevance for other new applications. The goal of this Special Issue is to foster the dissemination of some of the latest research devoted to these special materials from different perspectives.
Technology: general issues --- shape memory alloys --- cyclic tests --- fatigue test --- energy dissipation --- earthquake engineering --- NiTiNb --- anisotropy --- texture --- SME --- pipe joints --- NiTi --- selective laser melting --- additive manufacturing --- lattice structure --- EBSD --- superelasticity --- metamagnetic shape memory alloys --- structural defects --- magnetocaloric effect --- mechanical damping --- martensitic transitions --- phonon softening --- resonant ultrasound spectroscopy --- laser-ultrasound --- elastic constants --- high-temperature shape memory alloys --- titanium palladium --- titanium platinum --- multi-component alloys --- medium-entropy alloys --- high-entropy alloys --- laser powder bed fusion --- density control --- structure control --- process simulation --- shape memory alloy --- Fe-Mn-Al-Ni --- cyclic heat treatment --- co-based Heusler alloy --- martensitic transformation --- metamagnetic shape memory alloy --- phase diagram --- magnetic-field-induced transition --- intermetallic --- microstructure --- differential scanning calorimetry --- X-ray diffraction --- mechanical testing --- n/a
Choose an application
Shape memory alloys (SMAs), in comparison with other materials, have the exceptional ability to change their properties, structure, and functionality depending on the thermal, magnetic, and/or stress fields applied. As is well known, in recent decades, the development of SMAs has allowed innovative solutions and alternatives in biomedical applications and advanced engineering structures for aerospace and automotive industries as well as in sensor and actuation systems, among other sectors. Irrespective of this, designing and engineering using these special smart materials requires a solid background in materials science in order to consolidate their importance in these fields and to broaden their relevance for other new applications. The goal of this Special Issue is to foster the dissemination of some of the latest research devoted to these special materials from different perspectives.
shape memory alloys --- cyclic tests --- fatigue test --- energy dissipation --- earthquake engineering --- NiTiNb --- anisotropy --- texture --- SME --- pipe joints --- NiTi --- selective laser melting --- additive manufacturing --- lattice structure --- EBSD --- superelasticity --- metamagnetic shape memory alloys --- structural defects --- magnetocaloric effect --- mechanical damping --- martensitic transitions --- phonon softening --- resonant ultrasound spectroscopy --- laser-ultrasound --- elastic constants --- high-temperature shape memory alloys --- titanium palladium --- titanium platinum --- multi-component alloys --- medium-entropy alloys --- high-entropy alloys --- laser powder bed fusion --- density control --- structure control --- process simulation --- shape memory alloy --- Fe-Mn-Al-Ni --- cyclic heat treatment --- co-based Heusler alloy --- martensitic transformation --- metamagnetic shape memory alloy --- phase diagram --- magnetic-field-induced transition --- intermetallic --- microstructure --- differential scanning calorimetry --- X-ray diffraction --- mechanical testing --- n/a
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