The characteristics of fatigue crack growth rate of polymethylmethacrylate (PMMA)

李強新, Lie, Chiang-sin.

January 1982

published_or_final_version / Mechanical Engineering / Master / Master of Philosophy

Fracture mechanics.

Polymers - Fracture.

Development of a Simplified Fracture Toughness Tool for Polymers

Marnock, Patrick J. (Patrick Joseph)

08 1900

This thesis presents research toward the development of a simple inexpensive fracture toughness tool for polymeric materials. Experiments were conducted to test the specimen configuration and the fracture toughness tool against an established ASTM standard for polymer fracture toughness, D5045, and a commonly used four-point bend method. The materials used in this study were polycarbonate and high density polyethylene. Reductions in both the production time and the variability resulting from the preparation of the specimens were addressed through the use of specially designed fixtures. The effects from the razor cut depths used in the chevron notch were compared to the fracture toughness values obtained in order to determine the effect upon the validity of the fracture toughness.

fracture toughness testing

polymers

Polymers -- Fracture.

An investigation of core-shell rubber modified vinyl ester resins

Roberts, Karen Narelle, 1972-

January 2002

Abstract not available

Vinyl polymers -- Fracture

Rheology

Gums and resins

Thermoplastics -- Brittleness

Materials -- Testing

Fracture of ductile polymers

Beh, Henry,1970-

January 2001

Abstract not available

Polymers -- Ductility

Polymers -- Fracture

Polymers -- Fatigue

Thin-walled structures

Deformations (Mechanics)

The modification of polymeric materials with plasticizers or elastomers

Yorkgitis, Elaine Marie

January 1985

The modification of polymeric materials using plasticizers or elastomers has been investigated in three research programs. The first describes epoxy resins modified with dimethylsiloxane, dimethyl-co-methyltrifluoropropyl siloxane, and dimethyl-co-diphenyl siloxane. The apparent compatibility between the epoxy and the siloxanes was enhanced by increasing methyltrifluoropropyl or diphenyl siloxane content or lowering molecular weight, resulting in profound changes in morphology and the resultant mechanical properties of the modified resins. Fracture toughness was most significantly improved using siloxanes containing at least 40% methyltrifluoropropyl siloxane or 20 and 40% diphenyl siloxane. Comparison of siloxane modifiers with butadiene acrylonitrile modifiers was valuable with regard to both property and morphological effects. The second research project considers the structure-property behavior of polyvinyl chloride (PVC) plasticized with low molecular weight diesters with emphasis on the contrasting effects of different plasticizers on the breadth of PVC's dynamic mechanical spectrum. It was clearly demonstrated that a less soluble plasticizer promoted a greater broadening at intermediate concentrations. Crystallization phenomena and static mechanical properties reflected the greater diluent effect of a more soluble plasticizer. The dynamic mechanical behavior as well as other critical experimental observations were explained using a model which postulates that the network junctions of plasticized PVC consist of "pockets" containing several small crystallites. These pockets are randomly dispersed in a matrix whose homogeneity is governed by the plasticizer's solubility and molar volume. The third research project describes the modification of high 1,4 polybutadiene (PB) with isopropyl azodicarboxylate (IAD) for potential .use as impact modifiers for polar polymers. A method for finding the extent of IAD modification of the PB has been developed using ¹³C nmr and UV spectroscopy. Solution blends of PVC with PB modified with up to 11 mol% IAD were found to be immiscible. Stress-strain testing suggested that IAD modification (11%) enhanced the apparent compatibility between PB and PVC at 25% rubber content. The relatively poor mechanical response of the blends was believed to be related to their somewhat porous morphology. / Ph. D. / incomplete_metadata

LD5655.V856 1985.Y674

Polymers -- Additives

Plasticizers

Elastomers

Polymers -- Fracture

Polymers -- Mechanical properties

Chain-level conceptual understanding of the deformation of semicrystalline polymers and the fracture of ductile glassy polymers

Smith, Travis

02 August 2023

No description available.

Plastics

Physics