Part 1: Perspectives on the Challenges of Joints Research -- Introduction to Research on the Mechanics of Jointed Structures -- An Overview of the Analysis of Jointed Structures -- Are Joints Necessary? -- Considerations for Defining the Mechanisms of Friction -- Part 2: Experimental Techniques for Studying Energy Dissipation Mechanisms -- Round Robin Systems -- The Gaul Resonator: Experiments for the Isolated Investigation of a Bolted Lap Joint -- The Cut Beam Benchmark System: Developing Measurement Techniques for Nonlinear Damping and Stiffness in Frictional Interfaces -- The Ampair 600 Wind Turbine: An In-Context Benchmark System -- The Brake-Reuß Beams: A System Designed for the Measurements and Modeling of Variability and Repeatability of Jointed Structures with Frictional Interfaces -- Considerations for Measurements of Jointed Structures -- Damping Due to Joints in Built-Up Structures -- A Survey of Contact Hysteresis Measurement Techniques -- Under-Platform Damper Measurements at Politecnico di Torino -- Part 3: Derivation of Constitutive Equations Based on Physical Parameters -- An Overview of Constitutive Models -- Assessment of Coulomb Friction in Modeling Joint Mechanics via a Parameter Study of Dissipation -- The Reduced Iwan Plus Pinning (RIPP) Joint Model -- Modal Iwan Models for Structures with Bolted Joints -- Constitutive Modeling of Contact for ElasticPlastic Materials Engaged in Micro/Macroslip -- Microslip Induced Damping in the Contact of Nominally Flat Surfaces with Geometric Defects -- Elements of a Nonlinear System Identification Methodology of Broad Applicability With Application to Bolted Joints -- Parameter Estimation via Instantaneous Frequency and Damping from Transient Ring-Down Data -- Part 4: Numerical Techniques for the Analysis of Jointed Structures -- Historical Perspective on Numerical Techniques for Modeling Joints -- A Standard Practice for Modeling Bolted Joints in a Finite Element Package -- Reduced Order Modeling of Nonlinear Structures with Frictional Interfaces -- The Craig-Mayes Reduction: A Craig-Bampton Experimental Dynamic Substructure using the Transmission Simulator Method -- A Comparison of Reduced Order Modeling Techniques Used in Dynamic Substructuring -- Calculating the Dynamic Response of Jointed Structures in the Frequency Domain using Contact Interface Elements -- Application of Continuum Shell Models for Joint Dissipation -- Nonlinear Modal Analysis and Modal Reduction of Jointed Structures -- Numerical Methods for Assessing Response Metrics -- Predicting the Shakedown Limits of Joints Subject to Fretting and High Cycle Fatigue -- Part 5: Epistemic and Aleatoric Uncertainty in Modeling and Measurements -- A Primer for Uncertainty Modeling in Jointed Structures -- Epistemic and Aleatoric Uncertainty in Modeling -- A Practical Application of a Maximum Entropy, Non-Parametric Approach to Account for Epistemic Uncertainty Using Random Matrices -- Stochastic Iwan-Type Models for Joint Variability Modeling -- Quantifying-Epistemic and Aleatoric Uncertainty in the Ampair 600 Wind Turbine -- Part 6: Perspectives on the Future of Joints Research -- The Next Generation of Joints Research.