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Creep: A Love Story

為了解決Creep的問題，作者Peñaflor, Lygia Day 這樣論述：

決定再生瀝青黏結料混合程度與混合現象評估

為了解決Creep的問題，作者張毓芸 這樣論述：

近年來回收瀝青鋪面(Reclaimed Asphalt Pavement, RAP)循環再利用成為備受重視之議題，如何有效地重複使用RAP，達到循環經濟的概念為目前各界共同努力之目標。RAP具有高變異性，主要是由於RAP中老化瀝青可活化的程度(Degree of Activity, DoA)不易評估，可活化的老化瀝青含量會受RAP添加量、RAP中瀝青含量、拌合溫度、拌合時間、以及再生劑添加量等因素影響，進而影響新舊瀝青混合程度(Degree of Blending, DoB)。DoB為再生瀝青混凝土配合設計中非常重要須考量之參數，但此參數目前還尚無法完全確定其數值，通常僅能以推估的方式決定之

，因此本研究以評估混合程度為目標，透過使用從兩種不同來源之RAP中萃取還原出之再生瀝青黏結料(Recovered Asphalt Binder, RAB)，計算不同之再生瀝青黏結料取代新鮮瀝青之比例(Replaced Virgin Binder, RVB)與新鮮瀝青混合製作出混合瀝青，進行各項基本物性、流變試驗及原子力顯微鏡試驗分析其混合前後之趨勢，並找出再生瀝青之混合程度。根據韌性試驗結果顯示最大瞬間載重隨著再生瀝青取代量上升而逐漸上升，在取代量介於20%~30%時達到最佳值，至取代量大於30%時開始下降；多重應力潛變恢復試驗之結果顯示當取代量大於20%時之混合瀝青已達到可承受重度交通量之標

準；線性振幅掃描試驗顯示Nf / ESALs值隨著取代量升高而提升，在取代量介於20%~30%時達到最佳值，而後下降；頻率掃描試驗結果顯示從25℃之主曲線可知僅需使用20%~30%之老化瀝青取代新鮮瀝青，即可大幅改善基底瀝青之性能。由韌性、多重應力潛變恢復試驗及線性振福掃描之結果可得知兩種再生瀝青黏結料之最佳取代量分別為24.8%與22%，再透過公式反推可得知在RAP含量為20%時混合程度約為100%；含量為30%時混合程度約為69%；含量為40%時混合程度約為51.7%。原子力顯微鏡之結果顯示出再生瀝青黏結料微觀結構隨再生瀝青增加而產生峰相(Bee Phase)之崩解，與純瀝青的完整峰相結構

截然不同，推測再生瀝青黏結料受萃取過程中所加入之甲苯影響甚大，或是因其他添加劑(如再生劑或改質劑)加入而導致峰相結構顯示崩解。瀝青拌合圖建議應考量韌性、黏結力、車轍以及疲勞等相關平衡性質，傳統仰賴黏滯度之拌合圖恐造成誤判。

Metal Matrix Composites: Fabrication, Production and 3D Printing

為了解決Creep的問題，作者 這樣論述：

Dr Suneev Anil Bansal has more than 15 years of diverse experience in industry, research laboratories and academia. He has served variuos key positions in key projects like automobile development at Hero Motor Corp., fighter aircraft development at DRDO, and nanomaterials & manufacturing development

at various universities. His research interest is in the fields of micro/nano-manufacturing, materials, 2D materials, graphene, polymer/metal composite materials, sensing, etc. Presently, he is working (& head of the nano/micro-manufacturing and materials research group) at Maharaja Agrasen Univers

ity. He has published more than 50 research papers, holds 1 patent and has served as a subject expert for a number of journalsDr. Virat Khanna is an Assistant Professor and Head in the Department of Mechanical Engineering at Maharaja Agrasen University, HP, India and has 11 years of teaching experie

nce. He is Ph.D. in Mechanical Engineering from Maharaja Agrasen University, HP, India. He Completed his M Tech in Mechanical Engineering in 2013 and B Tech in Mechanical Engineering in 2008 from I. K. Gujral Punjab Technical University, Jalandhar, India. His areas of research are Aluminium Metal ma

trix nanocomposite (Graphene, CNT, Processing technique, optimization and mathematical modeling techniques). He has published and presented more than 18 papers in Journals and conferences of national and international repute. He has authored one book named Steady State Creep in Rotating Thick-Walled

Composite Cylinders with Lambert Academic Publishing, Germany (ISBN: 978-3-659-71203-6). He is also the Editor of Book Emerging & Futuristic Trends in Engineering & Technology (ISBN: 978-93-82068-14-3).Dr. Pallav Gupta is presently working as an Assistant Professor (Grade-II) in the Department of M

echanical Engineering, Amity School of Engineering and Technology, Amity University Uttar Pradesh, Noida (INDIA). He completed his B.Tech. (Honors) from Department of Mechanical Engineering, Integral University, Lucknow, INDIA in the year 2009, Qualified GATE in 2009 with AIR-3291 and then completed

his M.Tech. (Honors) from I.I.T. (B.H.U.), Varanasi, INDIA in the year 2011 followed by Ph.D. in the year 2015 from I.I.T.(B.H.U.), Varanasi, INDIA. His area of research includes Material Processing; Metal Matrix Composites; Coatings/Nanocoatings; Mechanical Behaviour and Corrosion. He also has a g

ood command over teaching subjects like Material Science; Engineering Materials; Measurement and Metrology; Advanced Welding Technology & Composite Materials. Dr. Gupta has over 08 years of teaching and research experience. In this duration, he has published over 80+ research papers in peer reviewed

international journals as well as in reputed international and national conferences in India as well as in abroad. Apart from this he has also published 07 chapters in books published by Springer. Dr. Gupta has edited one book entitled Advances in Engineering Materials (Springer) and has also autho

red a textbook on Manufacturing Processes (IP Innovative Publication Pvt. Ltd.). He has also filed 01 Indian and 01 Australian Patent as well. Dr. Gupta has completed 02 sponsored research projects as Principal Invetigator. He also received International Travel Support from S.E.R.B., Department of S

cience and Technology, Government of India in the year 2016 for attending and presenting his research work in an International Conference held in Malaysia. Dr. Gupta also has memberships of several professional bodies like Materials Research Society of India, Tribology Society of India, Electron Mic

roscope Society of India, The Indian Society for Technical Education etc. He also has delivered large number of invited and expert lectures as well as chaired sessions in conferences at various reputed Universities and Institutes in India and Abroad. A large number of students have completed their S

ummer Internships, B.Tech. Projects and M.Tech. Dissertations under his guidance. 02 scholars have completed and 04 are presently registered for their Ph.D. research work under his Supervision in the area of Coatings, Metal Matrix Composites and Polymer Matrix Composites.