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プロフィール詳細
Dr. Zayeem F.に依頼
United Kingdom
Phd Structural Integrity | Stress Consultant | Fatigue & Fracture Mechanics | Aerospace, Automotive ,Railway
プロフィール概要
専門分野
サービス
Writing
Technical Writing
Research
Feasibility Study,
Gap Analysis,
Scientific and Technical Research,
Systematic Literature Review,
Secondary Data Collection
Consulting
Scientific and Technical Consulting,
Manufacturing Consulting
Data & AI
Predictive Modeling,
Statistical Analysis,
Data Cleaning
Product Development
Manufacturing,
Concept Development,
Prototyping,
Reverse Engineering
職務経験
Stress engineering Consultant
Alten Ltd (Seconded to Rolls Royce Derby)
9月 2023 - 現在
Doctoral Researcher
University of Huddersfield
6月 2021 - 1月 2025
Stress Engineer
Borgwarner Turbo systems
12月 2019 - 5月 2021
Industrial Engineer
Case New Holland
8月 2016 - 9月 2017
学歴
PhD
University of Huddersfield
6月 2021 - 1月 2025
Masters By Research
University of Huddersfield
9月 2018 - 11月 2019
BEng in Mechanical Engineering
University of Huddersfield
9月 2014 - 8月 2018
認定資格
-
Metals Material Modelling: Creep.
NAFEMS
3月 2021 - 現在
-
Metals Material Modelling: Plasticity
NAFEMS
3月 2021 - 現在
-
Non Linear FEA
NAFEMS
2月 2021 - 現在
-
Practical Modelling of Joints & Connections
NAFEMS
6月 2020 - 現在
-
Fatigue and Fracture mechanics in FEA
NAFEMS
3月 2020 - 現在
-
Structural Optimization in FEA
NAFEMS
1月 2020 - 現在
出版物
JOURNAL ARTICLE
Zayeem Fazili, Simon Barrans (2025). Use of the theory of critical distances in predicting medium cycle fatigue failure in five-axis ball end milled components . Journal of Mechanical Science and Technology.
Fazili, Z., Barrans, S.(2025). Use of the theory of critical distances in predicting medium cycle fatigue failure in five-axis ball end milled components . Journal of Mechanical Science and Technology. 39. (6). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 3295-3307.
Zayeem Fazili, Simon Barrans, Karl Walton (2024). Predicting fatigue failure in five‐axis machined ball‐end milled components through FKM local stress approach . Fatigue & Fracture of Engineering Materials & Structures.
Fazili, Z., Barrans, S., Walton, K.(2024). Predicting fatigue failure in five-axis machined ball-end milled components through FKM local stress approach . Fatigue and Fracture of Engineering Materials and Structures. 47. (10). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 3773-3790.
Brown, B., Fazili, Z., Ward, A., Walton, K., Blunt, L., Østergaard, J., Asare-Addo, K.(2021). An investigation of drug compact topography as relates to intrinsic dissolution rates determined by dissolution imaging . Journal of Drug Delivery Science and Technology. 61.
Brown, B., Ward, A., Fazili, Z., Østergaard, J., Asare-Addo, K.(2021). Application of UV dissolution imaging to pharmaceutical systems . Advanced Drug Delivery Reviews. 177.
Fazili, Z., Ward, A., Walton, K., Blunt, L., Asare-Addo, K.(2020). Design and development of a novel fused filament fabrication (FFF) 3D printed diffusion cell with UV imaging capabilities to characterise permeation in pharmaceutical formulations . European Journal of Pharmaceutics and Biopharmaceutics. 152. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 202-209.
CONFERENCE PAPER
S.M. Barrans, A. Mccarthy, Z. Fazili (2024). An Adaptable Swivel Button Clamp with Enhanced Fatigue Durability . Civil-Comp Conferences.