All Episodes

Can Algae-Based Bioplastics actually replace plastic? (ft. Eylül Er, Palgae)

Materials Deep Dive Is... Changing? From Student Podcast to CEO Interviews

Have a plastic waste problem? Fall in love with it (ft. Luenne Coelho, Reefaire)

Electromagnetic Waves Explained: Refractive Index, Brewster Angle & Penetration Depth

Capacitors & Dielectrics: Ohm's Law and Electric Properties of Materials

How to Recycle Composite Materials: Methods, Challenges & Circular Economy

93. Laminar Composites - Production of Composite Materials

Particle-Reinforced Polymer Composites: Production & Everyday Applications

Fiber-Reinforced Polymer Composites: Open Mould vs Closed Mould Processes

90. Particle Reinforced Metallic Composites - Production of Composite Materials

89. Fiber Reinforced Metals - Production of Composite Materials

88. Particle Reinforced Ceramic Composites - Production of Composite Materials

87. Fibre Reinforced Ceramics - Production of Composite Materials

86. Powder Technology - Production of Composite Materials

85. Hybrid Nanomaterials - Nanostructured Materials and Nanotechnologies

84. Nanocomposites - Nanostructured Materials and Nanotechnologies

83. Surface engineering - Tribology

82. The 4 Main Types of Wear - Tribology

81. Semiconductors and Quantum Dots - Nanostructured Materials and Nanotechnologies

80. Metal Nanoparticles - Nanostructured Materials and Nanotechnologies

79. Graphene - Nanostructured Materials and Nanotechnologies

78. Carbon Nanomaterials - Nanostructured Materials and Nanotechnologies

77. Lubrication - Tribology

76. Friction - Tribology

75. Introduction to Tribology - Tribology

74. Polymeric nanometrials - Nanostructured Materials and Nanotechnologies

73. Fabrication of Nanomaterials - Nanostructured Materials and Nanotechnologies

72. Stability of Nanoparticles - Nanostructured Materials and Nanotechnologies

When Normal Physics Breaks Down: The Strange World of Nanoparticles

Mechanical Engineering isn’t about Bernoulli, it's about water parks (ft. Daniel McCaulley, Ultimus Engineering))

70. Magnetic Fields and Current - Electromagnetism and Optics

What Is Innovation Engineering? A Framework for Building Better Products

68. Risk Management - Quality and Innovation Engineering

67. Process Quality Management - Quality and Innovation Engineering

66. Seven tools of Quality Control - Quality and Innovation Engineering

65. Standards and models of TQM - Quality and Innovation Engineering

64. Lean Management - Quality and Innovation Engineering

63. Contact Lenses - Biomaterials and Biomedical Applications

62. The Evolution of Quality Management - Quality and Innovation Engineering

61. Defining Quality - Quality Engineering and Innovation

60. Tissue Engineering - Biomaterials and Biomedical Applications

59. Sterilization of Devices - Biomaterials and Biomedical applications

58. Ligament Replacement - Biomaterials and Biomedical applications

57. Hip and knee prosthetics - Biomaterials and Biomedical applications

56. Introduction to Biomaterials - Biomaterials and Biomedical Aplications

55. Fiber Properties, Production and Applications - Composite Materials

54. Reinforcement Mechanisms - Composite Materials

53. Cements - Composit Materials

52. Mechanical Properties in Ceramics - Ceramic Materials

51. Thermal Properties in Ceramics - Ceramic Materials

50. Magnetic Properties in Ceramics - Ceramic Materials

49. Spinel Structure - Ceramic Materials

48. Perovskite Structures - Ceramic Materials

47. Ceramic Structure - Ceramic Materials

46. Glass Strengthening - Ceramic Materials

45. Crystallization and Devitrification - Ceramic Materials

44. Inorganic Glass Structure - Ceramic Materials

43. Non-metallic Coatings - Technologies of Surfaces and Coatings

42. Thin Film Deposition - Technologies of Surfaces and Coatings

41. Cladding - Technologies of Surfaces and Coatings

40. Metallic Coatings - Technologies of Surfaces and Coatings

39. Finite Elements Model - Modeling in Materials Engineering

38. Ashby’s Modeling Approach - Modeling in Materials Engineering

37. Computational Modeling - Modeling in Materials Engineering

36. Organic Coatings - Technologies of Surfaces and Coatings

35. Surface Preparation for Coatings - Technologies of Surfaces and Coatings

34. Surface Composition Modification - Technologies of Surfaces and Coatings

33. Shock Hardening and Heat Treatments - Technologies of Surfaces and Coatings

32. High Entropy Alloys - Functional Materials

31. Atomic Force Microscopy - Difraction and Microscopy Techniques

30. Powder X-Ray Diffraction - Difraction and Microscopy Techniques

29. Electron Microscopy - Difraction and Microscopy Techniques

28. Optical Microscopy Techniques - Difraction and Microscopy Techniques

27. Titanium Alloys - Metallic Materials

26. Aluminium Alloys - Metallic Materials

25. Cementation - Metallic Materials

24. Tempering - Metallic Materials

23. Induction Hardening - Metallic Materials

22. Photoluminescent Materials - Functional Materials

21. Molecular Materials (part III) - Functional Materials

20. Molecular Materials (part II) - Functional Materials

19. Surface Topography - Technologies of Surfaces and Coatings

18. Introduction to Surface Engineering - Technologies of Surfaces and Coatings

17. Molecular Materials (part I) - Functional Materials

16. SMMs and Measuring Methods - Functional Materials

15. Martensitic Transformation - Metallic Materials

14. Steel Quenching - Metallic Materials

13. Heat Treatments in Steels - Metallic Materials

12. Cast Irons - Metallic Materials

11. Stainless Steel - Metallic Materials

Types of Magnetic Materials: From Ferromagnets to Cancer-Treating Nanoparticles

How to Choose the Right Steel: Classifications, Properties & Selection Guide

How Steel Is Made: Electric Arc Furnace vs Basic Oxygen Process

From Ore to Metal: The Full Steel and Iron Production Process Explained

Metallic Materials 101: Aluminum Cans, Turbine Blades & Tantalum Capacitors

Metallographic Sample Preparation: Polishing, Etching & Microscopy Analysis

How Fuel Cells Work: Materials, Electrochemistry & Clean Energy Applications

Hydrogen Storage Materials: Methods, Challenges & the Path to Clean Energy

Spin Crossover Materials: The Key to Flexible, Transparent Smartphones?

Thermoelectric Materials: Turning Heat into Electricity and Vice Versa