1.COURSE INTRODUCTION Our Aim To deepen and broaden materials science and engineering education in the essential elements of applications and practices of advanced engineering materials. To advance students'theoretical knowledge and application skills involving critical thinking of the underpinning key principles of engineering materials for demanding industrial applications. MT333 Materials Applications and Practice Prof.XiaoQi Chen 1.3 Leaning Outcomes (continues) DGE 1.Advanced theoretical knowledge involving critical understanding of the underpinning key principles of engineering materials and applications. 2.Understanding and application of property-processing-structure- characterization knowledge to attain competence in the materials science and engineering disciplines. 3.Understanding of advanced materials;their applications and performance requirements;manufacturability;environmental and socio-political impacts, 4.Knowledge of materials processing techniques in achieving dimensional accuracy,mechanical properties and structural integrity. MT333 Materials Applications and Practice Prof.XiaoQi Chen 1.4MT333 Materials Applications and Practice Prof. XiaoQi Chen 1.3 1. COURSE INTRODUCTION • To deepen and broaden materials science and engineering education in the essential elements of applications and practices of advanced engineering materials. • To advance students’ theoretical knowledge and application skills involving critical thinking of the underpinning key principles of engineering materials for demanding industrial applications. MT333 Materials Applications and Practice Prof. XiaoQi Chen 1.4 Leaning Outcomes (continues) 1. Advanced theoretical knowledge involving critical understanding of the underpinning key principles of engineering materials and applications. 2. Understanding and application of property-processing-structure￾characterization knowledge to attain competence in the materials science and engineering disciplines. 3. Understanding of advanced materials; their applications and performance requirements; manufacturability; environmental and socio- political impacts, 4. Knowledge of materials processing techniques in achieving dimensional accuracy, mechanical properties and structural integrity