2009-01-012024-05-17https://scholars.lib.ntu.edu.tw/handle/123456789/694982摘要：由於地質科學與時間變因的關係密切，使得反應動力學成為研究各種地質作用的重要基礎知識。本計畫延續97年核定執行之計畫，按照原規劃繼續培養三位大學二年級同學，使其在畢業前兩年即具有反應動力學之基礎知識，未來能更有效率的將此知識應用在分析各種地質作用方面的研究。此外為配合大二同學的程度與課業，本計畫以兩本動力學教科書（涵蓋地球科學與材料科學領域）為教材，並做適度的簡化，以求達到最有效率的學習。實際操作方面將以礦物的相變反應為主，並且與材料科學之相變相互比較。學生今年將學習包括主導曲線模型在內之各種動力學模型、VBA電腦程式語言，並進行簡單的電腦數值模擬與礦物相變實驗。本子計畫跨領域與工學院材料系之「非晶質合金結晶相變態研究」子計畫組成專題研究小組，提供參與學生之相互觀摩討論之機會。<br> Abstract: Time is an important factor in Geosciences. As a result, reaction kinetics has naturally become one of the most important basic knowledge for geoscientist to investigate various geological processes. This proposal is the second year of last year’s project and continuously focus on the training of three sophomore students; teach them essential knowledge of reaction kinetics, so that they’ll be able to apply this knowledge effectively to the analysis of various geologic processes when they are junior. Two books of kinetics, one is about earth sciences and another one is materials science, have been chosen as textbooks. However, it is necessary to carefully choose and simplify the contents so that the freshman students can learn effectively. In practice, we’ll focus on phase transformation reactions of both minerals and materials. In this year, the students will learn master curve model as well as other kinetics models, VBA computer language, simple computer simulation methods and minerals phase transformation experiments. In addition, the students in this proposal will join another proposal “amorphous to crystalline phase transformation of alloys” proposed by Professor C.S. Lin of department of Materials Science and Engineering, to form a multi-discipline team. The students from both proposals will work and learn together during the proposed year period.相變反應動力學固體熱力學主導曲線模型。phase transformationreaction kineticssolid phase thermodynamicsmaster sinter curve model.