Over the past two decades, there has been a shift in research and industrial practice, and products traditionally manufactured primarily from wood are increasingly combined with other nonwood materials of either natural or synthetic origin. Wood and other plant-based fiber is routinely combined with adhesives, polymers, and other "ingredients" to produce composite materials.

"Introduction to Wood and Natural Fiber Composites" draws together widely scattered information concerning fundamental concepts and technical applications, essential to the manufacture of wood and natural fiber composites. The topics addressed include basic information on the chemical and physical composition of wood and other lignocellulosic materials, the behavior of these materials under thermocompression processes, fundamentals of adhesion, specific adhesive systems used to manufacture composite materials, and an overview of the industrial technologies used to manufacture major product categories. The book concludes with a chapter on the burgeoning field of natural fiber-plastic composites.

"Introduction to Wood and Natural Fiber Composites" is a valuable resource for upper-level undergraduate students and graduate students studying forest products and wood science, as well as for practicing professionals working in operational areas of wood- and natural-fiber processing.

For more information on the Wiley Series in Renewable Resources, visit www.wiley.com/go/rrs

Topics covered include: Overview of lignocellulosic material, their chemical and physical compositionConsolidation behavior of wood and fiber in response to heat and pressureFundamentals of adhesionAdhesives used to bond wood and lignocellulosic compositesManufacturing technology of major product typesFiber/plastic composites

This handbook provides an overview on wood science and technology of unparalleled comprehensiveness and international validity. It describes the fundamental wood biology, chemistry and physics, as well as structure-property relations of wood and wood-based materials. The different aspects and steps of wood processing are presented in detail from both a fundamental technological perspective and their realisation in industrial contexts. The discussed industrial processes extend beyond sawmilling and the manufacturing of adhesively bonded wood products to the processing of the various wood-based materials, including pulp and paper, natural fibre materials and aspects of bio-refinery. Core concepts of wood applications, quality and life cycle assessment of this important natural resource are presented. The book concludes with a useful compilation of fundamental material parameters and data as well as a glossary of terms in accordance with the most important industry standards. Written and edited by a truly international team of experts from academia, research institutes and industry, thoroughly reviewed by external colleagues, this handbook is well-attuned to educational demands, as well as providing a summary of state-of-the-art research trends and industrial requirements. It is an invaluable resource for all professionals in research and development, and engineers in practise in the field of wood science and technology.

This volume comprises the papers presented at the Session on Wood Products Pathology during the 2nd International Congress on Plant Pathology on 10th - 12th September 1973 in Minneapolis/USA. The topics were dealt with under four heads, viz. Interaction of Microorganisms during Wood Decay, Bacterial Degradation of Wood, Decay of Resistant Wood and Enzymatic Mechanisms of Deterioration Process, followed by a Discussion Session on Extension: an obli gation of all Wood Products Pathologists . Thanks to the cooperation of the authors all the papers could be compiled in this volume. The conference gave an unique possibility to discuss in depth the principles of wood decay by microorganisms from the various angles. The chapters give detailed information on the current progress and problems in wood products pathology. They are therefore collected together in this volume so that people interested in this field will have immediate access to the material and ideas presented. The topic of this Session, the degradation of wood by fungi and bacteria, has become more and more important during the last years. Wood is the only renewable natural resource and raw material of man so that it must be preserved against unwanted deterioration. On the other hand, its natural decomposition does not lead to any harmful products but only to carbondioxide and water. Both aspects have been dealt with in this volume. Hamburg, March 1975 Walter Liese Contributors A.F.BRAVERY, Building Research Establishment, Princes Risborough Laboratory, Princes Risborough, U.K."

The definitive industry reference on the paper and paperboard packaging sector.

Now in a fully revised and updated second edition, this book discusses all the main types of packaging based on paper and paperboard. It considers the raw materials, the manufacture of paper and paperboard, and the basic properties and features on which packaging made from these materials depends for its appearance and performance. The manufacture of twelve types of paper- and paperboard-based packaging is described, together with their end-use applications and the packaging machinery involved. The importance of pack design is stressed, as well as how these materials offer packaging designers opportunities for imaginative and innovative design solutions. Environmental factors, including resource sustainability, societal and waste management issues are addressed in a dedicated chapter.

The book is directed at readers based in companies which manufacture packaging grades of paper and paperboard, companies involved in the design, printing and production of packaging, and companies which manufacture inks, coatings, adhesives and packaging machinery. It will be essential reading for students of packaging technology and technologists working in food manufacturing who are users of paper and paperboard packaging products.

Praise for the First Edition

'This book is a valuable addition to the library of any forward-looking company by providing in-depth coverage of all aspects of packaging which involve the most ecologically acceptable material, namely paper and paperboard.'--International Journal of Dairy Technology

'...a welcome contribution to a field where coverage was previously limited to subject-specific books... or to single chapters in textbooks on broader aspects of packaging technology.'--Packaging Technology and Science

For the past two millennia, the ability to produce paper in ever more efficient ways has supported the proliferation of literacy, media, religion, education, commerce and art. It has created civilisations, fostering the fomenting of revolutions and the stabilising of regimes. Now, on the cusp of "going paperless", Mark Kurlansky challenges common assumptions about technology's influence, affirming that paper is here to stay.

This book provides a guide to the use and meaning of toxicological and ecological information in the paper industry. For example, the information provided by suppliers of paper chemicals to paper mills is analysed in detail. This allows for greater understanding by users and therefore awareness of the possible implications of handling a given chemical with respect to its impact on the working environment, the final product and the environment beyond the mill. The information currently available is collected, summarised and systematised so that users bombarded with inconsistent Safety Data Sheets can make intelligent use of them or can ask sensible questions of their suppliers. Emphasis is on providing guidance on how to find a commercially realistic path between over evaluation and under evaluation of potential health and environmental risks.

Hand Hewn is a fascinating and inspiring tribute to traditional timber framing by one of today's foremost expert architects and practitioners of the craft. In this highly visual book, internationally renowned builder Jack A. Sobon weaves his personal history of learning about the craft with its 2,000-year-long history. Sobon begins with the story of how he fell in love with what was then a little-known building technique and how he eventually became the "Sherlock Holmes" of timber framing. Through evocative text, stunning photography, and hand drawings, Sobon highlights the intimacy of timber framing: its connection to place and to the trees and forest, as well as the honesty and artfulness of the craft, the satisfaction of working with hand tools, and the thoughtful - even spiritual - nature of design. Ultimately, the book reveals how contemporary timber framing offers links to the past, to the natural world, and to the homes and structures that shape our lives.

Orietta Da Rold provides a detailed analysis of the coming of paper to medieval England, and its influence on the literary and non-literary culture of the period. Looking beyond book production, Da Rold maps out the uses of paper and explains the success of this technology in medieval culture, considering how people interacted with it and how it affected their lives. Offering a nuanced understanding of how affordance influenced societal choices, Paper in Medieval England draws on a multilingual array of sources to investigate how paper circulated, was written upon, and was deployed by people across medieval society, from kings to merchants, to bishops, to clerks and to poets, contributing to an understanding of how medieval paper changed communication and shaped modernity.

Guide to the properties and uses of Southern African Wood is a fully illustrated, scientifically accurate guide to the characteristics, properties and uses of wood from 140 Southern African tree species. Species treatments include information on conservation status, uses, mechanical properties, durability, identification features, woodworking properties and comments from wood users on workability. Photographs of tree bark, untreated and treated wood, end-grain macrographs, as well as worked items. Provides information on historical uses, where trees grow, availability and sustainability of the woods and the practicalities of harvesting and processing. Superior quality text and excellent reproduction and printing. The only commercially available book which focuses on the properties of Southern African wood, written in a style that will appeal to a wide audience: professional woodworkers, designers, architects, wood dealers and wood collectors, hobbyists, botanists and anyone interested in trees and wood. A must-have for all who love wood and trees!

An in-depth look at the chemistry and chemical technology involved in the manufacture of pulp and paper, the properties of paper, and the uses for paper. This new edition contains contributions by forty recognized authorities in the field. Emphasizes the underlying science and technology and reviews, in detail, chemical and engineering principles. Includes numerous tables, illustrations, and a complete bibliography.

Pulp and paper production has increased globally and will continue to increase in the near future. Approximately 155 million tons of wood pulp is produced worldwide and about 260 million is projected for 2010. To cope with the increasing demand, an increase in production and improved environmental performance is needed as the industry is under constant pressure to reduce environmental emissions to air and water. This book gives updated information on environmentally benign approaches for pulp bleaching, which can help solve the problems associated with conventional bleaching technologies.
Main focus is on the environmentally-friendly technologies that can help solve some of the problems associated with conventional bleaching technologiesInformation given is up-to-date, authoritative, and cites the experiences of many mills and pertinent research, which is of interest to those working in the industry or intending to do soCovers in great depth all the aspects of various bleaching processes including environmental issues

This richly-illustrated book presents the information necessary for fiber analysis in the field of pulp and paper. A discussion of raw-material structure and the features used for species identification in pulp is followed up by the description of 117 fiber species. Of these, 83 are wood fibers and 34 are of nonwood origin. The tree species range across all five continents, 29 from Eurasia, 38 from North America and 16 from the southern hemisphere and the tropics. Informative micrographs, identification tables, and distribution maps aid species differentiation, making this atlas ideal for everyone interested in fiber identification.

This book provides an up-to-date overview of the various wood and tree fungi that damage trees, lumber, and timber. Special focus is given to identification, prevention, and remediation techniques, and the book bridges the gap between research and application. It covers the fundamentals of cytology and morphology.

There is a more practical section describing damage by viruses and bacteria on trees. The habitats of wood fungi are described as well as tree care. Important tree pathogens and wood decay fungi are characterized for prevention and identification. The final section focuses on the positive effects of wood-inhabiting microorganisms.

Since prehistoric times and throughout the course of human evolution, wood has been an integral part of all civilizations. Wooden Cultural Heritage can be found worldwide, providing valuable information on the social and economic context of human history. Nonetheless, as a natural cellulosic material, wood shows low resistance to biodeterioration and thus wooden Cultural Heritage often fails to escape decomposition in both aquatic and terrestrial ecosystems. This book provides a comprehensive overview on the biodeterioration of wooden Cultural Heritage and describes the decay mechanisms of key organisms and microorganisms encountered in aquatic and terrestrial ecosystems. Cultural Heritage professionals, researchers and academics may explore within this book the associations between deteriogens, habitats and decay, which will assist them to understand wood biodeterioration and design effective prevention, mitigation and remediation strategies. The book presents case studies around the world to demonstrate the impact of biogenic deterioration on wooden Cultural Heritage and illustrates mechanisms and patterns in order to be a useful handbook of decay diagnosis. Lastly, by adopting a holistic approach to wood decay, basic concepts of wood technology, ecology, and deteriogens' biology are introduced, permitting readers of different scientific backgrounds to easily comprehend wood biodeterioration.

In its Second Edition, Handbook of Pulping and Papermaking is a comprehensive reference for industry and academia. The book offers a concise yet thorough introduction to the process of papermaking from the production of wood chips to the final testing and use of the paper product. The author has updated the extensive bibliography, providing the reader with easy access to the pulp and paper literature. The book emphasizes principles and concepts behind papermaking, detailing both the physical and chemical processes.
Key Features
* A comprehensive introduction to the physical and chemical processes in pulping and papermaking
* Contains an extensive annotated bibliography
* Includes 12 pages of color plates

The new edition of this textbook, while largely retaining the proven chapter structure of the previous editions, combines the quantitative, mathematical analysis of the mechanisms of wood processing with practical recommendations and solutions. It presents new theoretical and experimental approaches and offers a clear and systematic overview of the theory of wood cutting, thermal loading in wood-cutting tools, optimum choice of operational parameters, dynamic behavior of tool and workpiece, stability problems in wood machining, energy requirements, the wear process of tools and a unique analysis of surface roughness. In general, diagrams are provided to help quickly estimate various process parameters. As a modern and powerful tool, the process optimization procedure is also included, and amply demonstrated in worked-out examples. In this edition, new and updated material has been added in many sections: roughly a third of the book has been rewritten and a quarter of the figures are new. In addition, many figures have been revised for clarity. The authors are confident that this revised and expanded edition will continue to meet the needs of all those working in the field of wood machining.

The effective and lasting treatment of wood against insect and fungal attack grows in importance as forestry reserves decline and as cost increases feed through to the building trade and other timber users. At the same time, environmental pressures bear ever more heavily on the types of chemicals and processes employed in the preservation industry. This book records the proceedings of an international meeting arranged to address such issues. The 15 principal chapters are based upon papers by invited experts to a combined audience of preservation practitioners and non-specialists. The chapter sequence follows the logical pattern of the conference, beginning with a review of the biological threats to be contended. There follow historical and state-of-the-art accounts of aqueous, organic solvent and non-liquid treatment processes. Preservatives increasingly must meet international product and environmental standards, which along with the related test, analytical and quality control procedures, are described and referenced. Contributors from the wood preservation industry address a range of needs associated with cost, safety and performance efficacy, not neglecting a search for a better understanding of the finer chemical mechanisms involved. Remaining problems are outlined in strategies for further research and development.
Address a range of needs associated with cost, safety and performance efficacyProblems are outlined in strategies for further research and development

This book presents the results of an experiment assessing the impact of spruce wood joints on the creation and development of fire when these joints are applied within a facade. The book includes an extensive analysis of wooden cladding, which is a flammable material in which the elements are connected lengthwise using various types of joint. The parameters of the experiment, as well as the setting, material criteria and evaluation criteria are described in detail. The results confirm that the joint type used has an impact on the selected evaluation criteria and thus also on the potential spread of fire.

In the agriculture, forestry, the primary and secondary wood working industry there are considerable resources of raw materials which can only be used in a rational manner for energetic purposes. Due to requirements from the users. one of the most retinal way of utilization is to make pellets with high density and specific energy content. Making pellets of 6-8 mm diameter, their utilization in furnaces allows an almost fully automated operation with high thermal efficiency. This book describes both the theoretical and practical aspects of pellet production including material requirements and preparation, pressing technologies, quality requirements, burning properties, investments and the overall economy of pellet production.

Other volumes in the latest edition of Pulp and Paper Chemistry and Chemical Technology, 3rd Ed. Edited by James P. Casey Volume 1 Contents: Cellulose and Hemicellulose (G.D. McGinnis and F. Shafizadeh). Lignin (W.G. Glasser). Pulpwood (W.J. Bublitz). Pulping (J.N. McGovern, W.F. Daniell, et al.). Bleaching (V. Loras). Appendix. Index. 1980 Volume 2 Contents: Fiber Preparation and Approach Flow (J.H. Young). Fiber Bonding (J.V. Robinson). Sheet Formation and Drying (T.N. Kershaw). Nonwovens and Papers from Synthetic Fibers (W.T. Heyse). Synthetic Papers and Pulps (W.H. Hoge). Environmental Control (A.M. Springer). Microbiology (S.J. Buckman). 1980 Volume 4 Contents: Pigment Coating (C.L. Garey). Printing (M.H. Bruno). Reprography (M.A. Nielsen). Laminating (C.U. Turner). Corrugating (A.J. DiDominias). Corrugating (G.H. Klein). Paper Reinforcement by Polymer Addition (J.F. Waterhouse). Paper Laminates (J.L. Robertson). Aqueous and Solvent Coatings (L.J. Carlson). Extrusion and Hot Melt Coatings. 1981

Biermann's Handbook of Pulp and Paper: Paper and Board Making, Third Edition provides a thorough introduction to paper and board making, providing paper technologists recent information. The book emphasizes principles and concepts behind papermaking, detailing both the physical and chemical processes. It has been updated, revised and extended. Several new chapters have been added. Papermaking chemistry has found an adequate scope covering this important area by basics and practical application. Scientific and technical advances in refining, including the latest developments have been presented. The process of stock preparation describes the unit processes. An exhaustive overview of Chemical additives in Pulp and Paper Industry is included. Paper and pulp processing and additive chemicals are an integral part of the total papermaking process from pulp slurry, through sheet formation, to effluent disposal. Water circuits with loop designs and circuit closure are presented. The chapter on paper and board manufacture covers the different sections in the paper machine and also fabrics, rolls and roll covers, and describes the different types of machines producing the various paper and board grades. Coating is dealt with in a separate chapter covering color formulation and preparation and also coating application. Paper finishing gives an insight into what happens at roll slitting and handling. The chapter on environmental impact includes waste water treatment and handling, air emissions, utilization and solid residue generation and mitigation . The major paper and board grades and their properties, are described. Biotechnological methods for paper processing are also presented. This handbook is essential reading for Applied Chemists, Foresters, Chemical Engineers, Wood Scientists, and Pulp and Paper technologist/ Engineers, and anyone else interested or involved in the pulp and paper industry.

Pulp and Paper Industry: Emerging Waste Water Treatment Technologies is the first book which comprehensively reviews this topic. Over the past decade, pulp and paper companies have continued to focus on minimizing fresh water use and effluent discharges as part of their move towards sustainable operating practices. Three stages-basic conservation, water reuse and water recycling-provide a systematic approach to water resource management. Implementing these stages requires increased financial investment and better utilization of water resources. The ultimate goal for pulp and paper companies is to have effluent-free factories with no negative environmental impact. The traditional water treatment technologies that are used in paper mills are not able to remove recalcitrant contaminants. Therefore, advanced water treatment technologies are being included in industrial wastewater treatment chains aiming to either improve water biodegradability or its final quality. This book discusses various measures being adopted by the pulp and paper industry to reduce water consumption and treatment techniques to treat wastewater to recover it for reuse. The book also examines the emerging technologies for treatment of effluents and presents examples of full-scale installations.

This brief contains information on the reduction of environmental impact and explains how it is a key driver for the R&D of new forest products. The authors, experts in the field, describe how Life Cycle Assessment (LCA) is used to assess the environmental impact of such products, e.g. in order to guide R&D or attract investments. The authors describe the main challenges of carrying out LCAs on forest products, make recommendations for managing these challenges, and discuss future research needs. LCA case studies are used to illustrate the challenges, covering a variety of forest products: building components, biofuels, industrial chemicals, textile fibres and clothing. Described challenges include the planning of LCA studies (e.g.how can one use LCA in R&D?), the modelling of product systems (how can one handle multi-functionality and uncertainties related to waste handling and geographical location of future production?) and environmental impact (how can one assess water and land use impact, and the climate impact of biomass?).

Pulp and Paper Industry: Nanotechnology in Forest Industry covers the latest scientific and technical advances in the area of nanotechnology in forest sector providing information on recent developments, structure and properties, raw materials and methods for the production of nanocellulose along with their characterization and application in various industries with an analysis of both challenges and opportunities with respect to environmentally sound technologies and consumer concerns such as health effects. Also identifies the key barriers to innovation, and the breakthroughs required to make nanocellulosic materials viable alternatives in the important sectors.

This four volume set covers the entire spectrum of pulp and paper chemistry and technology from starting material to processes and products including market demands. This work is essential for all students of wood science and a useful reference for those working in the pulp and paper industry or on the chemistry of renewable resources. Volume 3 provides an overview of paper production and the ways in which the chemistry of starting materials and processes influence its quality and properties. The work treats fundamental properties of the fibre wall and the consolidation of fibres during pressing and drying, surface chemistry of fibres and their influence on the interaction between fibres/paper and other materials, mechanisms behind the adsorption of polyelectrolytes to fibres and fillers, acid and alkaline sizing of paper, basic fluid mechanical behavior of fibre suspensions, web forming, web pressing and web drying in a modern paper machine, calandering and coating of paper.