12.5 Ozonolysis of CNSL to produce cardanolaldehyde and a hydroperoxide, the latter…Figure 12.6 Example of the relative movement of two pieces of wood during wood welding witho…
12 Chapter 13Figure 13.1 Susceptible bonds in UF.Figure 13.2 Susceptible bonds in MF and PF.Figure 13.3 Reaction between chromotropic acid and formaldehyde.Figure 13.4 Emission according to gas analysis.Figure 13.5 Test apparatus for the flask method.Figure 13.6 Reaction between acetylacetone and formaldehyde.Figure 13.7 Japanese desiccator method.Figure 13.8 The perforator method.
13 Chapter 14Figure 14.1 Viscous flow between two parallel plates.Figure 14.2 Ostwald’s viscometer.Figure 14.3 Ford cup.Figure 14.4 Non-Newtoninan fluids.Figure 14.5 Maxwell element.Figure 14.6 Voigt element.Figure 14.7 Maxwell-Voigt mixed model.Figure 14.8 Macroscopic development of rheological and mechanical properties during network…Figure 14.9 Response of elastic and viscous materials to sinusoidal stresses.Figure 14.10 Strain response to sinusoidal stress.Figure 14.11 Graphical representation of storage and loss moduli (Argand diagram).Figure 14.12 Significance of elastic response and energy loss.Figure 14.13 Details of a TTT diagram of an epoxy resin adhesive on a non-interacting glass…Figure 14.14 Generalized TTT diagram of water-carried PF resin adhesives on an interacting…Figure 14.15 Generalized CHT diagram of water-carried PF resin adhesives on an interacting…Figure 14.16 TMA curve of the hardening of a PF resin in situ in a beech wood joint…Figure 14.17 Wire mesh geometry.Figure 14.18 Sample configuration for the DMTA (three-point bending mode) test.
14 Chapter 15Figure 15.1 Ethylene vinyl acetate copolymer.Figure 15.2 Two-phase morphology of SBC.Figure 15.3 Formation of dimer acid.Figure 15.4 Dimer acid polyamide.Figure 15.5 Terpenes for producing tackifiers.Figure 15.6 Three major classes of terpene resins.Figure 15.7 Rosin acids.
15 Chapter 16Figure 16.1 Acetylation of lignocellulosic fibers.Figure 16.2 Structure of silane coupling agent.Figure 16.3 Fiber modification by acrylonitrile.Figure 16.4 Fiber modification by isocyanate.Figure 16.5 MAA-g-polypropylene.Figure 16.6 Fiber modification by GMA.Figure 16.7 mTMI unsaturated aliphatic isocyanate.Figure 16.8 Isocyanate modification of fiber.
16 Chapter 17Figure 17.1 Diols employed for UP resins.Figure 17.2 Other speciality chemicals used for UP synthesis.Figure 17.3 Vinyl ester resin.Figure 17.4 Formation of monoester.Figure 17.5 Formation of diester.Figure 17.6 Unsaturated polyester oligomer.Figure 17.7 Benzoyl peroxide and tert-butylperbenzoate.Figure 17.8 Production of free radicals.Figure 17.9 Room temperature curing free radical initiators.Figure 17.10 UP thickening reaction.Figure 17.11 BAPO photoinitiator.
17 Chapter 18Figure 18.1 Raw materials for epoxy resin.Figure 18.2 Structure of DGEBA.Figure 18.3 Epoxy oligomer based on bisphenol A.Figure 18.4 Tertiary amines curing agents.Figure 18.5 Scheme of reaction of epoxy resin with tertiary amines.Figure 18.6 Polyamines as curing agents.Figure 18.7 Polyamines–epoxy curing reaction.Figure 18.8 Special amines.Figure 18.9 Anhydrides for epoxy resin curing.Figure 18.10 Epoxidized novolac.Figure 18.11 Peroxy-acids for epoxidizing unsaturated compounds.Figure 18.12 Reactivity of peroxy-acids.
18 Chapter 19Figure 19.1 Schematic molecular structure. (a) LDPE, (b) LLDPE, and (c) HDPE [2].
19 Chapter 20Figure 20.1 PP manufacturing process: (a) 1st generation solvent polymerization process,…
20 Chapter 21Figure 21.1 Simplified structures of PHAs.Figure 21.2 Polyhydroxybutyrate-co-valerate.Figure 21.3 D- and L-lactic acid.Figure 21.4 Polyesterification of lactic acid.Figure 21.5 ROP of lactic acid.Figure 21.6 Polybutylene adipate terephthalate.Figure 21.7 PHB/valerate.
List of Tables
1 Chapter 1Table 1.1 Proportions of different types of linkages connecting the phenylpropane units…Table 1.2 Comparison of wood–adhesive interactions relative to length scale.Table 1.3 Comparison of adhesion interactions relative to length scale [36].
2 Chapter 2Table 2.1 Bond types and typical bond energies [1].Table 2.2 Comparison of adhesion interactions relative to length scale.Table 2.3 Physical properties and surface free energy components of test liquids used at…
3 Chapter 6Table 6.1 The ingredients of the original HMR formulation. F/R molar ratio = 1.54.
4 Chapter 11Table 11.1 Comparative 13C NMR shift assignments and relative band intensities…Table 11.2 MALDI fragmentation peaks for industrial mimosa tannin extract of…
5 Chapter 12Table 12.1 Typical results of laboratory and industrial particleboard bonded with mimosa…Table 12.2 Results of laboratory particleboard bonded with methylolated kraft lignin-based…Table 12.3 Laboratory results for ozonolysis/reduction of a CNSL bonded particleboard…Table 12.4 Typical parameters in mechanically induced linear vibration wood welding and…
6 Chapter 13Table 13.1 Phase 1 and Phase 2 CARB emission standards.Table 13.2 Standards and test methods.
7 Chapter 15Table 15.1 General-purpose EVA-based adhesive.Table 15.2 Common antioxidants by chemical type with major resin applications.
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