Grafted


Book Description

Grafted documents, through stunning photography, the groundbreaking collaboration between Adam Silverman, a renowned LA-based ceramicist, and Kohei Oda, an award-winning Japanese "plant sculptor." Through two exhibitions, Silverman and Oda worked together to produce one hundred unique works combining Oda's grafted cacti with Silverman's textural ceramic pots to produce one-of-a-kind, out of this world artworks that cross boundaries. Beautifully photographed by Shuji Yoshida and Joshua White and edited and designed by Tamotsu Yagi, Grafted is a testament to the power of merging two powerful visions. As Glenn Adamson writes in his introduction: "Their collaboration is not just about a hundred plants in a hundred pots; it is further evidence that art at its best can move effortlessly across cultures, across media, and against expectation."




Grafted In


Book Description

The Apostle Paul compared Gentile Christians to olive branches cut from wild olive trees and grafted into the olive tree of Israel. He believed that the dividing wall separating Jew and Gentile had been removed, and to him this was the ômystery of the Gospel.ö




Biopolymer Grafting: Applications


Book Description

Biopolymer Grafting: Applications presents the latest research and developments in the practical application of these methods in industry, both to enable polymer scientists and engineers to keep up with the latest research trends, as well as to propose ideas for further research and application. Research into bio-based polymers has become increasingly prevalent. However, due to challenges related to the properties of these materials compared to synthetic polymers—such as their resistance to chemicals or weather—uptake has not dramatically increased yet. As a result, improvements in surface modification of bio-polymers through graft copolymerization are enormously important, because they will widen the scope of their applications. Relevant industries for application of these methods include automotive, construction, food, packaging, agriculture, textiles and paper. This book provides an overview of the developments made in the area of biopolymer-based graft polymers. Advantages, disadvantages and suggestions for future works are discussed, assisting materials scientists and researchers in mapping out the future of these new "green" materials through value addition to enhance their use. - Helps researchers and product developers understand the applications and limitations of biopolymer copolymers or copolymers of natural polymers - Offers a roadmap to future applications development in a range of different industries, including automotive, biomedical and packaging - Increases familiarity with a range of biopolymer grafting processes, enabling materials scientists and engineers to improve material properties and widen the range of potential biopolymer applications




The Manual of Plant Grafting


Book Description

Grafting, uniting part of one plant with another to create a single plant, has been used as a method of propagation for thousands of years. But new techniques have been introduced in the last twenty years, and the grafting of edible plants, like tomatoes, has recently become widely used. The Manual of Plant Grafting is an up-to-date, authoritative, and practical guide to the latest grafting techniques. It features information on the reason to graft, along with clear instructions on the formation of the graft union, the production of rootstocks, bench grafting techniques, field grafting, vegetable grafting, and cactus grafting. An A-to-Z appendix of plants features detailed information on what type of graft should be used, when it should be done, what type of root stock needs to be used, and what environment it needs to be kept in. The Manual of Plant Grafting is a must-have guide for nursery and horticulture professionals, horticulture students, and orchard owners.




Grafted Arts


Book Description

Conceptualizes "graft"-- the violent and creative processes of suturing arts as a method of empire building in western eighteenth-century India Grafted Arts focuses on Maratha military rulers and British East India Company officials who used the arts to engage in diplomacy, wage war, compete for prestige, and generate devotion as they allied with (or fought against) each other to control western India in the eighteenth century. This book conceptualizes the artistic combinations that resulted as ones of "graft"--a term that acknowledges the violent and creative processes of suturing arts, and losing and gaining goods, as well as the shifting dynamics among agents who assembled such materials. By tracing grafted arts from multiple perspectives--Maratha and British, artist and patron, soldier and collector--this book charts the methods of empire-building that recast artistic production and collection in western India and from there across India and in Britain. This mercenary method of artistry propagated mixed, fractured, and plundered arts. Indeed, these "grafted arts"--disseminated across India and Britain over the nineteenth century to aid in consolidating empire or revolting against it entirely--remain instigators of nationalist agitation today.




Grafting/Characterization Techniques/Kinetic Modeling


Book Description

Most of the untreated surfaces of polymers used in industry are not hydrophilic but hydrophobic. It is, therefore, difficult to bond these nonpolar polymer sur faces directly to other substances like adhesives, printing inks, and paints because they generally consist of polar compounds. On the other hand, polymer surfaces generally adsorb proteins when brought into direct contact with a bio logical system, resulting in cell attachment or platelet aggregation. The protein adsorption and attachment of biological components trigger a subsequent series of mostly adverse biological reactions toward the polymeric materials. Therefore, the technologies for surface modification of polymers or regulation of the polymer surface interaction with other substances have been of prime importance in polymer applications from the advent of polymer industries. Some of the technologies have been directed to introduction of new function alities onto polymer surfaces. The new functionalities introduced include improved surface hydrophilicity, hydrophobicity, bio compatibility, conductivi ty, anti-fogging, anti-fouling, grazing, surface hardness, surface roughness, adhesion, lubrication, and antistatic property. Theoretically, there is a large dif ference in properties between the surface and the bulk of a material and only the outermost surface is enough to be taken into consideration when the sur face properties are concerned. However, this is not the case for polymer surfaces, as the physical structure of the outermost polymer surface is generally not fixed but continuously changing with time due to the microscopic Brownian motion of polymer segments.




Bulletin


Book Description




Polymer Grafting and Crosslinking


Book Description

Rapid advances in technology require materials with improved property profiles. Polymer modification using grafting and crosslinking are key ways to achieve this in an economical way and without the need for developing new materials. Often widely disparate and in a number of references, practical information on polymer grafting and crosslinking is now available in one volume. Researchers seeking information that bridges the knowledge gap between the scientific principles and industrial applications of polymer crosslinking and grafting will find coverage on the basic science, the methodologies, and a focus on the specific techniques used in a variety of industrial applications such as automotive, laminates, paints, adhesives, and cable. Coverage also includes potential biomedical applications. Descriptions of analytical tools that can be used to evaluate the results are also included.







Neural Grafting


Book Description