Gas-liquid phase equilibria in the hydrogen-carbon tetrafluoride and hydrogen-chlorotrifluoromethane systems at low temperatures and 20 - 120 atmospheres

Shiau, Ju Fu

12 1900

No description available.

Phase rule and equilibrium

Low temperature research

The preparation of some highly reactive, three membered ring organic compounds as cryochemical reagents, and the low temperature mass spectrometric study of their stability and molecular energetics.

Holt, Richard James

12 1900

No description available.

Hydrocarbons

Low temperature research

Mass spectrometry

Predicted and experimental gas phase compositions in pressurized binary systems containing an essentially pure condensed phase ; Phase equilibrium data for the methane-hydrogen system from 66.88[superscript]0 to 116.53[superscript]0 K and up to 125 atmospheres

Kirk, Bradley Stone

05 1900

No description available.

Phase rule and equilibrium

Low temperature research

The erection of a liquid oxygen producing plant and the redesign of this plant to produce liquid nitrogen

Phillips, Weller Abner

08 1900

No description available.

Gases Liquefaction

Liquid air

Low temperature research

Preparation of aminoborane and low temperature mass spectrometric studies of its reactivity and energetics.

Kwon, Chin Taik

08 1900

No description available.

Mass spectrometry

Low temperature research

Aminoborane

Synthesis, stability and energetics of cyclobutadiene.

Li, Ping Hung

12 1900

No description available.

Cyclobutadiene

Low temperature research

Mass spectrometry

Mass spectrometric studies of the synthesis, reactivity, and energetics of the oxygen fluorides at cryogenic temperatures

Malone, Thomas Joseph

05 1900

No description available.

Mass spectrometry

Low temperature research

Fluorides

Phase equilibria in the helium-carbon dioxide, -argon, -methane, -nitrogen, and -oxygen systems.

Liu, Ker Fah

08 1900

No description available.

Phase rule and equilibrium

Low temperature research

Mass spectrometric study of the products obtained from fast cryogenic quenching of several reactions involving atomic hydrogen or atomic oxygen

Bivens, Donald Bernard

05 1900

No description available.

Mass spectrometry

Low temperature research

Hydrogen

Oxygen

Metallurgical Issues in Low-Temperature Joining of Silver Nanowires

Peng, Peng

January 2014

Silver nanowires (Ag NWs) have a wide range of applications in the electronic industry and are attracting growing world-wide interest because of their unique thermal, chemical, electrical and mechanical properties. Understanding of mechanical properties of Ag NWs and joining processes for them at a nano scale is urgently needed to support exploitation of their applications. Particularly, study of processing-structure-property relationships is of much significance. In the present thesis, the following research works were conducted. Ag NWs were synthesized using the polyol method. Joining of individual Ag NWs in an end-to-end orientation at room-temperature without assistance of external pressure was investigated. Selective surface activation of Ag NWs provided surface free of protective organic layers for metallurgical joining. A similar crystal orientation was maintained between the NWs, and diffusion along the boundary contributed to the nanojunction formation. Monocrystalline V-shaped or zig-zag silver prisms were formed after nanojoining, terminated by twin boundaries and free surfaces. The feasibility of room-temperature pressure-free joining of copper (Cu) substrates using Ag NW paste was conducted and demonstrated for flexible electronic packaging applications. The organic content in water-based Ag NW pastes was largely reduced by a repeated washing process to decrease the joining temperature. The formation of end-to-side or side-to-side joints between Ag NWs was observed concurrently with those joined end-to-end. The mechanical and electrical properties of Ag NW joints were examined. It was found that self-generated local heating within the Ag NW paste and Cu substrate system promoted the joining of Ag-to-Ag and Ag-to-Cu without any external energy input. The localized heat energy could be delivered in-situ to the interfaces and promoted atomic diffusion and metallic bond formation while the bulk component temperature maintaining near room-temperature. The organic layer on the side surfaces of the Ag NWs could be broken down through consumption of the residual PVP by a CuO-PVP reaction and which produced localized heating, increasing activated surface sites dramatically and making three-dimensional networks feasible. Ag NWs were introduced into Ag nanoparticle (NP) matrices joined at low-temperature. Joining was facilitated by solid state sintering of the Ag nanomaterials and metallic bonding at Cu-Ag interfaces. It was found that Ag NWs in a Ag NP matrix acted as a second reinforcement phase. In addition to improving the fracture toughness of joints, the introduction of Ag NWs affected the path of fracture propagation, where necking, breakage and pullout of Ag NWs occurred during loading.