58 citations as recorded by crossref.

1. Comparison between Pressure Core and Remolded Tetrahydrofuran-Hydrate-Bearing Core Testing Using Sediments Recovered from the Alaska North Slope I. Tepecik et al.
2. In-situ ultrasonic measurement for hydrate pressure cores sampled by deep sea drilling X. Li et al.
3. Pressure-core-based reservoir characterization for geomechanics: Insights from gas hydrate drilling during 2012–2013 at the eastern Nankai Trough J. Yoneda et al.
4. Permeability of hydrate-bearing sediments X. Ren et al.
5. Design of a high-performance pressure-preserving controller for in situ pressure-preserving coring in deep oil and gas extraction X. Shi et al.
6. Pore-scale modelling of elastic properties in hydrate-bearing sediments using 4-D synchrotron radiation imaging R. Li et al.
7. Review of Research Progress on Acoustic Test Equipment for Hydrate-Bearing Sediments S. Sun et al.
8. Investigation of in situ salinity and methane hydrate dissociation in coarse-grained sediments by slow, stepwise depressurization S. Phillips et al.
9. Design and verification of pressure-preserved computed tomography testing for deep oil and gas exploration X. Fang et al.
10. Pressure core based onshore laboratory analysis on mechanical properties of hydrate-bearing sediments recovered during India's National Gas Hydrate Program Expedition (NGHP) 02 J. Yoneda et al.
11. The status of exploitation techniques of natural gas hydrate L. Yang et al.
12. Coring and analysis technologies for natural gas hydrate reservoirs: achievements, obstacles, and future directions M. Xu et al.
13. A microfocus x-ray computed tomography based gas hydrate triaxial testing apparatus Y. Li et al.
14. Introduction to Special Issue on Gas Hydrate in Porous Media: Linking Laboratory and Field‐Scale Phenomena C. Ruppel et al.
15. Effect of KCl and MgCl2 on the kinetics of methane hydrate formation and dissociation in sandy sediments Z. Chong et al.
16. Triaxial compression of hydrate-bearing sediments undergoing hydrate dissociation by depressurization J. Choi et al.
17. Design and Functionality Analysis of the High-Stress Permeameter (HSP), a Device Developed for Measuring Mechanical and Hydraulic Properties of Gas Hydrate-Bearing Pressure Core A. Garcia & W. Waite
18. Evaluation of failure modes and undrained shear strength by cone penetrometer for Natural Gas hydrate-bearing pressure-core sediment samples recovered from the Krishna–Godavari Basin, offshore India A. Kato et al.
19. Sampling disturbance in hydrate-bearing sediment pressure cores: NGHP-01 expedition, Krishna–Godavari Basin example S. Dai & J. Santamarina
20. India National Gas Hydrate Program Expedition 02 summary of scientific results: Evaluation of natural gas-hydrate-bearing pressure cores R. Boswell et al.
21. Development of a pressure-retained transfer system of seafloor natural gas hydrates J. Chen et al.
22. Stress-dilatancy behaviour of bubbled fine-grained sediments Y. Hong et al.
23. Research on in-situ condition preserved coring and testing systems H. Xie et al.
24. Review on the Test Methods and Devices for Mechanical Properties of Hydrate-Bearing Sediments M. Chen et al.
25. Pressurized subsampling system for pressured gas-hydrate-bearing sediment: Microscale imaging using X-ray computed tomography Y. Jin et al.
26. Development and testing of a pressure core processing and analysis system Q. Gao et al.
27. Hydraulic properties of sediments from the GC955 gas hydrate reservoir in the Gulf of Mexico I. Tepecik et al.
28. Research on Pressure-Retaining Performance of Transfer Device for Abyssal Sediments J. Xiao et al.
29. Research progress and application of deep in-situ condition preserved coring and testing H. Xie et al.
30. Lithological features of hydrate-bearing sediments and their relationship with gas hydrate saturation in the eastern Nankai Trough, Japan T. Ito et al.
31. Pressure-holding transfer and testing techniques for natural gas hydrate reservoir core: a brief review Q. Gao et al.
32. Methane Hydrates in Nature—Current Knowledge and Challenges T. Collett et al.
33. Permeability anisotropy and relative permeability in sediments from the National Gas Hydrate Program Expedition 02, offshore India S. Dai et al.
34. Influence of vertical cylindrical tetrahydrofuran hydrate veins on fine-grained soil behaviour W. Smith et al.
35. Multi-property characterization chamber for geophysical-hydrological investigations of hydrate bearing sediments Y. Seol et al.
36. A Novel Sediment Pressure Sampling Device Carried by a Hadal-Rated Lander J. Chen et al.
37. Pressure-retaining sampler for sediment and overlying seawater based on heavy duty ROV-Jellyfish J. Guo et al.
38. Recent advances in creep behaviors characterization for hydrate-bearing sediment M. Chen et al.
39. Permeability of sediment cores from methane hydrate deposit in the Eastern Nankai Trough Y. Konno et al.
40. Review and Analysis of Key Techniques in Marine Sediment Sampling S. He et al.
41. Research on a Temperature Control Device for Seawater Hydraulic Systems Based on a Natural Gas Hydrate Core Sample Pressure-Retaining and Transfer Device P. Zhang et al.
42. Diatom influence on the production characteristics of hydrate-bearing sediments: Examples from Ulleung Basin, offshore South Korea J. Jang et al.
43. Pressure core analysis of geomechanical and fluid flow properties of seals associated with gas hydrate-bearing reservoirs in the Krishna-Godavari Basin, offshore India J. Jang et al.
44. Mechanical behavior of hydrate-bearing pressure-core sediments visualized under triaxial compression J. Yoneda et al.
45. Discrete element analysis of the mechanical properties of deep-sea methane hydrate-bearing soils considering interparticle bond thickness M. Jiang et al.
46. “Ester”—A new ring-shear-apparatus for hydrate-bearing sediments E. Spangenberg et al.
47. Research on pressure‐stabilizing system for transfer device for natural gas hydrate cores Q. Gao et al.
48. Lithological properties of natural gas hydrate–bearing sediments in pressure-cores recovered from the Krishna–Godavari Basin M. Oshima et al.
49. Testing system and experimental study of pressure parameters of natural gas hydrate core samples C. Lu et al.
50. Self-sealing control principle and technology of in-situ temperature pressure preserved coring for deep oil and gas X. Shi et al.
51. Laboratory formation of noncementing hydrates in sandy sediments J. Choi et al.
52. In Situ Mechanical Properties of Shallow Gas Hydrate Deposits in the Deep Seabed J. Yoneda et al.
53. In-situ observation for natural gas hydrate in porous medium: Water performance and formation characteristic L. Zhang et al.
54. Hydro-bio-geomechanical properties of hydrate-bearing sediments from Nankai Trough J. Santamarina et al.
55. Mechanical behavior of hydrate-bearing sediments in direct shear conditions: discrete element modelling study Z. Zhan et al.
56. The Jackalope gas hydrate system in the northeastern Gulf of Mexico A. Portnov et al.
57. In Situ Methane Hydrate Morphology Investigation: Natural Gas Hydrate-Bearing Sediment Recovered from the Eastern Nankai Trough Area Y. Jin et al.
58. Pressure coring operations during The University of Texas-Gulf of Mexico 2-1 (UT-GOM2-1) Hydrate Pressure Coring Expedition in Green Canyon Block 955, northern Gulf of Mexico C. Thomas et al.