His primary areas of study are Fractal, Geotechnical engineering, Fractal dimension, Fracture and Stress. His Fractal research incorporates elements of Geometry, Rock mechanics, Damage mechanics, Shear and Rock burst. Many of his studies on Rock mechanics involve topics that are commonly interrelated, such as Mineralogy.
His research integrates issues of Dissipation, Coal, Explosive material and Deformation in his study of Geotechnical engineering. His Fracture research includes elements of Surface roughness, Asperity, Surface, Joint and Fracture mechanics. His work on Stress field as part of general Stress research is frequently linked to Spatial distribution, thereby connecting diverse disciplines of science.
Heping Xie mainly focuses on Geotechnical engineering, Rock mechanics, Fracture, Fractal and Coal. His Geotechnical engineering research integrates issues from Brittleness, Anisotropy and Elastic modulus. While the research belongs to areas of Rock mechanics, Heping Xie spends his time largely on the problem of Coring, intersecting his research to questions surrounding Petroleum engineering and Thermal insulation.
Within one scientific family, Heping Xie focuses on topics pertaining to Fracture mechanics under Fracture, and may sometimes address concerns connected to Overburden pressure. He is studying Fractal dimension, which is a component of Fractal. His work focuses on many connections between Coal and other disciplines, such as Stress, that overlap with his field of interest in Deformation and Finite element method.
Heping Xie focuses on Coal, Coring, Rock mechanics, Stress and Coal mining. The various areas that Heping Xie examines in his Coal study include Fractal dimension, Fractal and Chemical engineering. His work carried out in the field of Rock mechanics brings together such families of science as Rock mass classification, Mechanical engineering, Scanning electron microscope, Brittleness and Deformation.
His studies in Stress integrate themes in fields like Deformation, Overburden pressure and Anisotropy. Heping Xie has researched Anisotropy in several fields, including Creep, Geotechnical engineering, Fracture and Oil shale. His work in Coal mining addresses subjects such as Mining engineering, which are connected to disciplines such as Roof.
His primary areas of investigation include Stress, Coal, Anisotropy, Chemical engineering and Electrochemistry. The Stress study combines topics in areas such as Fractal, Geotechnical engineering, Overburden pressure, Mechanics and Viscoelasticity. He interconnects Composite material, Fracture mechanics, Crack initiation and Deformation in the investigation of issues within Overburden pressure.
His study in Coal is interdisciplinary in nature, drawing from both Fractal dimension, Mineralogy and Fracture. His Coal mining study combines topics from a wide range of disciplines, such as Brittleness, Soil science and Rock mechanics. His Rock mechanics research is multidisciplinary, relying on both Mining engineering, Acoustic emission, Plasticity, Stress field and Deformation.
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Fractals in Rock Mechanics
Numerical investigation of blasting-induced crack initiation and propagation in rocks
Zheming Zhu;Bibhu Mohanty;Heping Xie.
International Journal of Rock Mechanics and Mining Sciences (2007)
FRACTAL CHARACTER AND MECHANISM OF ROCK BURSTS
H. Xie;W.G. Pariseau.
International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts (1993)
Numerical investigation of blasting-induced damage in cylindrical rocks
Zheming Zhu;Heping Xie;Bibhu Mohanty.
International Journal of Rock Mechanics and Mining Sciences (2008)
Chaos synchronization of fractional chaotic maps based on the stability condition
Guo-Cheng Wu;Dumitru Baleanu;He-Ping Xie;Fu-Lai Chen.
Physica A-statistical Mechanics and Its Applications (2016)
Multifractal characterization of rock fracture surfaces
Heping Xie;Jin-An Wang;M.A. Kwaśniewski.
International Journal of Rock Mechanics and Mining Sciences (1999)
DIRECT FRACTAL MEASUREMENT AND MULTIFRACTAL PROPERTIES OF FRACTURE SURFACES
Heping Xie;Jin-an Wang;E Stein.
Physics Letters A (1998)
Energy analysis and criteria for structural failure of rocks
Heping Xie;Heping Xie;Liyun Li;Liyun Li;Ruidong Peng;Yang Ju.
Journal of rock mechanics and geotechnical engineering (2009)
Fractal property of spatial distribution of acoustic emissions during the failure process of bedded rock salt
H.P. Xie;H.P. Xie;J.F. Liu;Y. Ju;J. Li.
International Journal of Rock Mechanics and Mining Sciences (2011)
Energy Dissipation and Release During Coal Failure Under Conventional Triaxial Compression
Ruidong Peng;Yang Ju;J. G. Wang;J. G. Wang;Heping Xie.
Rock Mechanics and Rock Engineering (2015)
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