|
" Mechanical Behavior and Thermal Stability of Acid-Base Phosphate Cements and Composites Fabricated at Ambient Temperature "
Colorado, Henry A.
Yang, Jenn-Ming
| Document Type
|
:
|
Latin Dissertation
|
| Language of Document
|
:
|
English
|
| Record Number
|
:
|
905779
|
| Doc. No
|
:
|
TL7qm0c0c1
|
| Main Entry
|
:
|
Colorado, Henry A.
|
| Title & Author
|
:
|
Mechanical Behavior and Thermal Stability of Acid-Base Phosphate Cements and Composites Fabricated at Ambient Temperature\ Colorado, Henry A.Yang, Jenn-Ming
|
| College
|
:
|
UCLA
|
| Date
|
:
|
2013
|
| student score
|
:
|
2013
|
| Abstract
|
:
|
This dissertation presents the study of the mechanical behavior and thermal stability of acid-base phosphate cements (PCs) and composites fabricated at ambient temperature. These materials are also known as chemically bonded phosphate ceramics (CBPCs). Among other advantages of using PCs when compared with traditional cements are the better mechanical properties (compressive and flexural strength), lower density, ultra-fast (controllable) setting time, controllable pH, and an environmentally benign process. Several PCs based on wollastonite and calcium and alumino phosphates after thermal exposure up to 1000�C have been investigated.First, the thermo-mechanical and chemical stability of wollastonite-based PC (Wo-PC) exposed to temperatures up to 1000�C in air environment were studied. The effects of processing conditions on the curing and shrinkage of the wollastonite-based PC were studied. The chemical reactions and phase transformations during the fabrication and during the thermal exposure are analyzed in detail using scanning electron microscopy (SEM), X-ray diffraction (XRD), and thermo-gravimetric analysis (TGA Then, the thermo-mechanical and chemical stability of glass, carbon and basalt fiber reinforced Wo-PC composites, were studied using SEM, XRD, TGA. The flexural strength and Weibull statistics were analyzed. A significant strength degradation in the composites were found after the thermal exposure at elevated temperatures due to the interdifusion and chemical reactions across the fibers and the matrix at temperatures over 600�C. To overcome this barrier, we have developed a new PC based on calcium and alumino-phosphates (Ca-Al PCs). The Ca-Al PCs were studied in detail using SEM, XRD, TGA, curing, shrinkage, Weibull statistics, and compression tests. Our study has confirmed that this new composite material is chemically and mechanically stable at temperatures up to 1000�C. Moreover, the compression strength increases after exposure to 1000�C. This is a significant result since phosphates typically show strength degradation at temperatures over 500�C.In addition, other PCs materials were developed during this research with their current and potential applications. These include a new PC based on fly ash (Fly ash-PC) as raw material; and PC-based on boron (B-PC), which can be used in shielding neutron irradiation and infrastructure for nuclear facilities.
|
| Added Entry
|
:
|
Yang, Jenn-Ming
|
| Added Entry
|
:
|
UCLA
|
| |