<p>Part One: Adhesive chemistries and formulations</p> <p>1 Advances in epoxy adhesives<br>2 Advances in acrylic structural adhesives<br>3 Advances in anaerobic adhesives<br>4 Advances in polyurethane structural adhesives<br>5 Advances in structural silicone adhesives<br>6 Emerging structural adhesive chemistries and innovations<br>7 Advances in toughening strategies for structural adhesives</p> <p>Part Two: Adherends and surfaces: Addressing and troubleshooting bonding challenges</p> <p>8 Advances in cyanoacrylate structural adhesives<br>9 What went wrong? Solving bonding challenges through surface science<br>10 Advances in bonding plastics<br>11 Structural bonds without an adhesive: Understanding adhesion of semicrystalline thermoplastic interfaces<br>12 Adhesive joining of thermoplastic composites<br>13 Advances in structural wood products adhesive bonding</p> <p>Part Three: Joint design, testing and modeling for performance & durability</p> <p>14 Improving joint performance through graded materials and geometries<br>15 Standard test methods and their need to evolve<br>16 Innovations in fracture testing of structural adhesive bonds<br>17 Understanding fracture mode-mixity and its effects on bond performance<br>18 Predicting adhesive bond performance<br>19 Bondline thickness: Fracture mechanics perspective<br>20 Evaluating and predicting fatigue behavior in adhesively bonded joints<br>21 Durability and accelerated characterization of adhesive bonds<br>22 High-rate testing of structural adhesives<br>23 Application of high-throughput methodologies and artificial intelligence for adhesion testing</p> <p>Part Four: Adhesive specification, quality control, & risk mitigation</p> <p>24 Architected adhesive joints with improved fracture toughness<br>25 Structural monitoring of adhesive joints using machine learning<br>26 Aerospace structural bonding: Qualification, quality control, substantiation, and risk mitigation<br>27 Automotive adhesives: Specification, qualification, and quality control<br>28 Construction adhesives: Qualification, specification, quality control, and risk mitigation<br>29 General industrial adhesive applications: Qualification, specification, quality control, and risk mitigation<br>30 Digital image correlation: Advancing mechanical property characterization of adhesive joints<br>31 Biomedical adhesives: Qualification, specification, quality control, and risk mitigation</p> <p>Part Five: Emerging technologies for structural bonding</p> <p>32 Sustainable adhesives: Bioadhesives, chemistries, recyclability, and reversibility<br>33 Accelerated curing of bonded joints<br>34 Residual stress development in curing processes: Material characterization and modeling<br>35 Sensing stresses and damage in adhesive bonds using mechanophores</p>
