CHIEN-NING YAO (ANNABELLE)
*** ***** ***** ****** ********* 215C
Arlington, Texas 76013
Cell: 682-***-****
E-mail: **********@*****.***
SUMMARY OF QUALIFICATIONS
More than 7 years’ lab experiments experience.
Managed a number of complex academic publications regarding to composite material, metallurgy, and material development skills.
Familiar with metallurgy material analysis like SEM/XRD/FTIR/EDS/XRF machine.
Proficient in hands on experience and publications associated to composite material / Thin Film/ 3D material research
Developed, improve new type of composite material in variety application, equipment, processes and analytical methods.
Certificated with Design of Experiment(DOE), Six Sigma, Statistic Process Control(SPC)
TECHNICAL SKILLS AND CORE COMPETENCES
Core Competences:
Ceramics, Composite, Failure Analysis, Design of Experiments, Solid State Physics, Mechanical Testing, Process Engineering, Quality Control, ISO Regulation, ASTM Standard, Statistical Process Control, Calibration Systems.
Credentials:
X-Ray Diffraction(XRD), LSR100 Laser Safety, Six Sigma, Development of Experiments(DOE), Statistical Process Control(SPC), Lean Manufacture, Social and Behavioral Responsible Conduct of Research Course, Working with the IACUC License 17929407, 17929406, 17929404, 17929408, 17929409, and 17929410
Instruments:
Centrifuge, High temperature furnace- Thermolyne 6000 Muffle Furnace, Contact Angle Meter, Energy-dispersive detector (EDS), Fourier transform infrared spectroscopy (FTIR), Full-spectrum UV/Vis nanodrop volume analyzer ND-1000, Instron- Electro Force 3330-HTAT Test Instrument, Raman Spectrum, Scanning Electron Microscopy (SEM), X-ray Absorbance Near Edge Structure (XANES) Spectroscopy.
Techniques:
Material Development, Risk Management, Reliability Testing, AutoCAD, EDS, FTIR, High resolution SEM image, Injectability Testing, Raman spectra, Sintered process, Solid State reaction, Development of Experiments(DOE), Statistical Process Control(SPC)
EXPERIENCE
Research Assistant, Baylor College of Dentistry, Dallas, Texas Sep 2015- Aug 2016
Controlled and characterized new composite materials(Ca3(PO4)2 with SiO2-CaO-P2O5-Na2O system)
Increased 4 times of mechanical property (Compressive strength; Young’s Modulus) in the project “Design Experiments for Failure Testing of material Procedures.”
Participated in 3D porous beta-TCP based material’s geometry design. (glass composite material)
Developing methods for reliability resolution and materials failure analysis.
Research Assistant, University of Texas at Arlington, Arlington, Texas Aug 2014- Aug 2016
Advanced a new composite and metal material (Titanium alloy) to replace a bone defect autografts.
Designing 3D printing machine and improve injectable composite material applied in medical application.
Increased injectability from 40% to 97% on beta-tri calcium phosphate applied on 3D printing machine, in the project “Material characterization of CPC-based material.”
Analyzed the metal alloy (Titanium alloy coating with SiOx) surface structure and element compositions.
EDUCATION
Master of Engineering in Material Science & Engineering, GPA 3.6/4.0 2014-2016
University of Texas at Arlington, Texas
Major courses: Analysis of Material, Failure Analysis & Reliability, Materials for Energy, Mechanical Behavior of Materials, Phase Transformation Materials
Bachelor of Science in Biological Science & Technology, GPA 3.7/4.0 2009-2013
China Medical University, Taichung City, Taiwan
RELEVANT PROJECTS AND PUBLICATIONS
Chien-Ning Yao, Felipe Monte, David Wang, Varanasi Venu, Pranesh Aswath, “Osteogenic differentiation in preosteoblast MC3T3-E1 cells induced by calcium phosphate bioactive ceramic,” In submission, Material Science C, 2016.
Prashanth Ravi, Chien-Ning Yao, Philip Zachary James, Varanasi Venu, Panos S. Shiakloas, Pranesh Aswath, “Creating a 3D printing model setting for material, success create printing a complicated structure increasing the effective of bone healing,” In submission, Journal of Biomedical Materials Research Part B, 2016.
Chien-Ning Yao, Jing-Gung Chung, "Quercetin effects on human oral cancer SAS cells work through the promotion of calcium release from the endoplasmic reticulum stress and the apoptosis pathway changed by the mitochondrial membrane potential," Conference Publication, ICEAS, Osaka, Japan, 2013.
Chien-Ning Yao, Jing-Gung Chung, “Quercetin induces apoptotic cell death and cell cycle arrest via mitochondria – dependent pathway in human oral cancer SAS cells," Conference Publication, ICEAS, Kyoto, Japan, 2012.
AWARDS AND HONORS
Graduate Student Thesis Awards, University of Texas at Arlington, 2014-2016.
North America Taiwanese Engineers Dallas Scholarship Honor Mentions, NATEA, 2015.
Outstanding Research Awards, China Medical University, 2013.