As part of a research initiative funded by the US Navy, the Computational Mechanics and Structures group at UT is working to increase its understanding of the behaviors of composite patches that are currently being used in ship and plane repair. These composite patches are comprised of a metal base layer and a more flexible resin layer (whose purpose is to allow the patch to conform to the contours of the repaired body). By studying how the resin behaves independently of the metal, we can better understand how to properly adhere the resin to the metal and create a durable and effective repair patch for the Navy’s use. This research project specifically serves to analyze how resin samples react when subjected to a 3-point bend test. Understa...
Bonded patches are widely used in several industry sectors for repairing damaged plates, cracks in m...
Damage is found in resin rich bead corner radii of RTM 6 epoxy-based composite ribs due to in-servic...
Fracture toughness, critical strain energy release rate, and critical stress intensity factor were d...
The purpose of this study is to analyze the behavior of a crack with and without reinforcement by a ...
The interest in the application of high strength aluminum alloy in marine structures has been increa...
In this article we analytically examined by three-dimensional finite element method the repair perfo...
Nowadays, composite materials are extensively applicable in various aspects including automotive, ma...
Adhesively bonded composite patch repair is an efficient means to regain load carrying capacity, all...
This paper aims to analyze the multi-effects of the glass fiber reinforced polymer (GFRP) composite ...
Merchant and passenger ships operate in harsh environments where they constantly suffer from corrosi...
Bisphenol A based thermoplastic polyesters are commonly used in the industry as binders, or tackifie...
This thesis investigates the feasibility of applying a composite repair patch in the underwater envi...
The digital image correlation technique is applied to investigate mixed-mode (I/II) fracture in five...
Bisphenol A based polyester is commonly used in the industry as a binder, or tackifier, to produce c...
Design, analysis and technology for the integrity enhancement of damaged or underdesigned structures...
Bonded patches are widely used in several industry sectors for repairing damaged plates, cracks in m...
Damage is found in resin rich bead corner radii of RTM 6 epoxy-based composite ribs due to in-servic...
Fracture toughness, critical strain energy release rate, and critical stress intensity factor were d...
The purpose of this study is to analyze the behavior of a crack with and without reinforcement by a ...
The interest in the application of high strength aluminum alloy in marine structures has been increa...
In this article we analytically examined by three-dimensional finite element method the repair perfo...
Nowadays, composite materials are extensively applicable in various aspects including automotive, ma...
Adhesively bonded composite patch repair is an efficient means to regain load carrying capacity, all...
This paper aims to analyze the multi-effects of the glass fiber reinforced polymer (GFRP) composite ...
Merchant and passenger ships operate in harsh environments where they constantly suffer from corrosi...
Bisphenol A based thermoplastic polyesters are commonly used in the industry as binders, or tackifie...
This thesis investigates the feasibility of applying a composite repair patch in the underwater envi...
The digital image correlation technique is applied to investigate mixed-mode (I/II) fracture in five...
Bisphenol A based polyester is commonly used in the industry as a binder, or tackifier, to produce c...
Design, analysis and technology for the integrity enhancement of damaged or underdesigned structures...
Bonded patches are widely used in several industry sectors for repairing damaged plates, cracks in m...
Damage is found in resin rich bead corner radii of RTM 6 epoxy-based composite ribs due to in-servic...
Fracture toughness, critical strain energy release rate, and critical stress intensity factor were d...