Vibration Analysis Approach to Model Incremental Wear and Associated Sound in Multi-Contact Sliding Friction Mechanisms
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Basit K. et al, (2023), Journal of Tribology, 145
Realizing surface amphiphobicity using 3D printing techniques: A critical move towards manufacturing low-cost reentrant geometries
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Shams H. et al, (2021), ADDITIVE MANUFACTURING, 38
Scalable wear resistant 3D printed slippery liquid infused porous surfaces (SLIPS)
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Shams H. et al, (2021), ADDITIVE MANUFACTURING, 48
Empirical Modelling of Frictional Noise and Two-Point Contact Using Ball-On-Disc Tribometer
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Basit K. et al, (2020)
Wear behavior of 3D printed PLA surfaces for superhydrophobic interaction
Journal article
Shams H. et al, (2020)
Development and characterization of repeating macro and micro geometric surface features on plain carbon steel using chemical etching
Journal article
Tariq I. et al, (2019), NUST Journal of Engineering Sciences, 12, 9 - 14
Characterization of nano-level coefficient of friction of oleophobic and superhydrophobic coatings on 316L SS in harsh conditions
Journal article
Shams H. et al, (2016), Bulletin of the American Physical Society, 61
Surface characterization of pipeline surface using replica techniques
Journal article
Shams H. et al, (2016), Bulletin of the American Physical Society, 61
Evaluation of commercial oleophobic coatings for aerospace applications in harsh environments: Analytical approach to determine the coefficient of friction at nano-level through lateral or friction force microscopy
Conference paper
Shams H. et al, (2015), 2015 Fourth International Conference on Aerospace Science and Engineering (ICASE)
Evaluation of commercial oleophobic coatings for aerospace applications in harsh environments
Conference paper
Shams H. et al, (2015), 2015 Fourth International Conference on Aerospace Science and Engineering (ICASE), 1 - 5
Validation of Temperature Sensitivity of Superhydrophobic Surfaces as Applied on 316L SS
Conference paper
Shams H. et al, (2015), First International Conference on Advanced Materials and Process Engineering (AMPE), 172, 172 - 172