1.1 How are Permanent Neodymium Magnets Produced
1.2 How to Clearly Describe a Magnet Procurement Requirement
1.3 The Grades and Magnetic Properties of Sintered Neodymium Magnets
1.4 The Common Processing Methods for Neodymium Magnets
1.5 Curie Temperature and Operating Temperature of Magnets
1.6 Orientation and Magnetization of NdFeB Magnets
1.7 Orientation and Magnetization Direction of Magnets (Part 2)
1.8 Magnetic Field Orientation and Magnetization of Sintered NdFeB Magnets
1.9 How to Select Coating for NdFeB Magnets
1.9.1 Electroplating
1.9.2 Electrophoretic Coating (E-coating)
1.9.3 Phosphating
1.9.4 Parylene
1.9.5 Passivation
1.10 Dimensions and Geometric Tolerances of NdFeB Magnets
2.1 Surface Magnetic Field Remanence and Magnetic Flux
2.2 How to Interpret Hysteresis Loops (Magnetization Curves, Demagnetization Curves, and Intrinsic Curves)
2.3 A Detailed Explanation of Remanence, Coercivity, Intrinsic Coercivity, and Maximum Energy Product via Hysteresis Loops
2.4 Surface Magnetism and Magnetic Flux
2.5 Conversion of Magnetic Units between the SI and CGS Systems
2.6 15 Explanations of Concepts Related to Magnetic Materials (Basic Edition)
2.7 Key Terms Every Magnetics Professional Must Know
2.8 The Working Principle of the Hall Element
2.9 Principles and Methods of Demagnetization
2.10 Halbach Array
2.11 Annular Halbach Magnet Array
2.12 What is a magnetic moment What is the relationship between magnetic moment and magnetic flux
2.13 Magnetism and Magnetic Moment
2.14 What are the operating point and Pc value of a permanent magnet How is the Pc value calculated
2.15 Magnetic Moment and Magnetic Flux; Magnetic Moment and Remanence
2.16 Demagnetization Curve Squareness (Q) and Knee Point (Hk)
2.17 Temperature Stability of Permanent Magnets Temperature Coefficient of Residual Induction, Temperature Coefficient of Coercivity, Reversible Temperature Coefficient
2.18 Magnetic Field Strength H and Magnetic Induction B; Magnetization M and Magnetic Polarization J
2.19 What is a magnetic domain
2.20 Eddy Current Loss in Permanent Magnet Materials
2.21 Shape Anisotropy, Demagnetizing Field, and Demagnetizing Factor of Permanent Magnets
2.22 Common Magnetic Circuit Structures
2.23 Do magnets with identical performance and volume exert the same suction force
2.24 Calculation of Surface Magnetism
2.25 Finite Element Analysis (FEA) Simulation of Permanent Magnet Fields
2.26 How to measure the surface Gauss using a gaussmeter
2.27 Magnetic Attraction and Magnetic Devices
3.1 Classification of Magnetism and Magnetic Materials
3.2 A Grand Showcase of Permanent Magnet Materials
3.3 Unveiling the Neodymium-Iron-Boron Family Bonded
3.4 Unveiling the Neodymium-Iron-Boron Family Hot-Pressed
3.4.1 Properties of Hot-Pressed and Hot-Deformed NdFeB Magnets
3.5 Samarium-Cobalt Permanent Magnet
3.6 SmFeN Rare Earth Permanent Magnet Materials
3.7 AlNiCo Permanent Magnet Materials
