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Glycosaminoglycan network geometry may contribute to anisotropic hydraulic permeability in cartilage under compression.

(2001) JOURNAL OF BIOMECHANICS. 34(11). p.1483-1490
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Chicago
QUINN, TM, P DIERICKX, and AJ GRODZINSKY. 2001. “Glycosaminoglycan Network Geometry May Contribute to Anisotropic Hydraulic Permeability in Cartilage Under Compression.” Journal of Biomechanics 34 (11): 1483–1490.
APA
QUINN, T., DIERICKX, P., & GRODZINSKY, A. (2001). Glycosaminoglycan network geometry may contribute to anisotropic hydraulic permeability in cartilage under compression. JOURNAL OF BIOMECHANICS, 34(11), 1483–1490.
Vancouver
1.
QUINN T, DIERICKX P, GRODZINSKY A. Glycosaminoglycan network geometry may contribute to anisotropic hydraulic permeability in cartilage under compression. JOURNAL OF BIOMECHANICS. 2001;34(11):1483–90.
MLA
QUINN, TM, P DIERICKX, and AJ GRODZINSKY. “Glycosaminoglycan Network Geometry May Contribute to Anisotropic Hydraulic Permeability in Cartilage Under Compression.” JOURNAL OF BIOMECHANICS 34.11 (2001): 1483–1490. Print.
@article{169960,
  author       = {QUINN, TM and DIERICKX, P and GRODZINSKY, AJ},
  issn         = {0021-9290},
  journal      = {JOURNAL OF BIOMECHANICS},
  language     = {eng},
  number       = {11},
  pages        = {1483--1490},
  title        = {Glycosaminoglycan network geometry may contribute to anisotropic hydraulic permeability in cartilage under compression.},
  volume       = {34},
  year         = {2001},
}

Web of Science
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