All Lecture Notes (Strength Courses 1 and 2) , (525 page) , Agust 23, 2024 pdf pptx
Chapter 1.1 : Motivation and Introduction , (15 pages) pdf pptx
Chapter 1.2: Separation Principle and the Concept of Stress , (19 pages, tvid 1) pdf pptx
Chapter 2: Tension, Compression and Shear in Bars and Fasteners (32 pages, tvid 2) pdf pptx
Chapter 4.1: Torsion of Shaft (32 pages, tvid:4a , 4b) pdf pptx
Chapter 4.2: Torsion of Thin-Walled Tubes (8 pages, Strength 2, tvid.4.2) pdf pptx
Chapter 4.3: Torsion of bars with rectangular or thin profil cross-sect. (5 pages, Strength 2, tvid4.3) pdf pptx
Chapter 5.1: Normal Stresses in Simple Bending (17 pages, tvid.5a) pdf pptx
Chapter 5.2: Shear Force – Bending Moment Diagrams (20 pages, tvid.5b) pdf pptx
Chapter 5.3: Shear Stress and Shear Flow in Simple Bending (22 pages, tv id:5c.1, 5c.2, 5c.3) pdf pptx
Chapter 5.4: Simple Bending of Composite Beams (10 pages, tvid.5d ) pdf pptx
Chapter 5.6: Pure Bending of Curved Beams (12 pages, Strength 2, tvid.5.6 ) pdf pptx
Chapter 5.7: Oblique (Unsymmetric) Bending (19 pages, Strength 2, t vid: 5.9a, 5.9b, 5.9.c ) pdf pptx
Chapter 6.1:Plane Stress Transformatıons and 2D Mohr’s Cırcle (19 pages, tvid.6a) pdf pptx
Chapter 6.2: 3D Stress Transformations and 3D Mohr’s Circle (29 pages, Strength 2, tvid: 6.2.a , 6.2.b) pdf pptx
Chapter 6.3: Plane Strain Transformations (11 pages, Strength 2, tvid.6.3 ) pdf pptx
Chapter 6.4: Experimental Strain Measurements with Strain Gauges (8 pages, Strength 2, tvid.6.3 ) pdf pptx
Chapter 7: Yield and Fracture Criteria (15 pages, Strength 2, tvid.7 ) pdf pptx
Chapter 9.1: Deflection of Beams (Elastic Curve), General Informations (4 pages, Strength 2 ) pdf pptx
Chapter 9.2: Deflection of Beams, Integration Method (12 pages, Strength 2, tvid:9.1, 9.2 ) pdf pptx
Chapter 9.3: Deflection of Beams, Moment Area Method (3 pages, Strength 2, tvid.9.3 ) pdf pptx
Chapter 9.4: Deflection of Beams, Conjugate Beam Method (4 pages, Strength 2, tvid.9.4 ) pdf pptx
Chapter 9.5: Deflection of Beams, Superposition Method (7 pages, Strength 2, tvid. 9.5) pdf pptx
Chapter 10.1: Energy Methos/Deformation Works & Strain Energy (14 pages, Strength 2, tvid.10.1) pdf pptx
Chapter 10.2: Energy Methos / Castigliano Theorems (32 pages, Strength 2, t vid: 10.2.a , 10.2.b) pdf pptx
Chapter 10.3: Energy Methos / Impact Loading Effects (8 pages, Strength 2, tvid.10.3) pdf pptx
Chapter 11: Columns and Buckling (29 pages, Strength 2, tvid:11.a, 11.b) pdf pptx