Presents detailed instructions, patterns, supply lists, and illustrations for creating, arranging, and displaying naturally and fancifully decorative fabric and paper flowers.
Is it Fresh, or is it Felt? Learn to make felt plants and flowers so rich with detail; they look freshly picked! Aimed at absolute beginners—the book starts with an overview of basic techniques and then progresses on to simple lessons for making flowers, plants, leaves, and branches. Each lesson comes with a detailed reference photograph, easy-to-follow step-by-step instructions, and pattern. Once the lessons are complete, the reader can progress onto a series of beautifully-designed projects (featuring the plants and flowers previously practiced). Each project is introduced with a styled photograph showing the item in an attractive modern setting along with easy instructions for assembly. Learn to make: Fabulous felt flowers including magnolia, poppy, ranunculus, rose, and sunflower Trendy felt houseplants such as air plants and succulents Gorgeous felt greenery including eucalyptus leaves, ferns, and an olive branch Beautiful felt projects including a floral garland, decorative pillow, potted plant, Bohemian crown, terrarium, and more! A must-have book for anyone interested in learning a new craft that offers endless creativity and is easy, inexpensive, and on-trend!
“Learn how to make flowers in the traditional and classic manner using heated irons and a range of stunning materials like silk, lace, velvet, and ribbons. With step-by-step directions, close-up photographs, clearly illustrated diagrams, and full-size flower templates every flower in the book is a breeze to make. The full-color photographs of each bloom provide inspiration for the many ways to use them – such as corsages, brooches, hair ornaments, headbands, bracelets, and more.” –Back cover.
Digital Fabrications, the second volume in our new Architecture Briefs series, celebrates the design ingenuity made possible by digital fabrication techniques. Author Lisa Iwamoto explores the methods architects use to calibrate digital designs with physical forms. The book is organized according to five types of digital fabrication techniques: tessellating, sectioning, folding, contouring, and forming. Projects are shown both in their finished forms and in working drawings, templates, and prototypes, allowing the reader to watch the process of each fantastic construction unfold. Digital Fabrications presents projects designed and built by emerging practices that pioneer techniques and experiment with fabrication processes on a small scale with a do-it-yourself attitude. Featured architects include AEDS/Ammar Eloueini, Atelier Manferdini, Brennan Buck, MOS, Office dA, Florencia Pita/MOD, Mafoomby, URBAN A+O, SYSTEMarchitects, Andrew Kudless/Matsys, IwamotoScott, Atelier Hitoshi Abe, Chris Bosse, Tom Wiscombe/EMERGENT, Thom Faulders Architecture, Jeremy Ficca, SPAN, GNUFORM, Heather Roberge, PATTERNS, Ruy Klein, and servo.
This volume contains the technical papers presented at the international symposium entitled “Processing and Fabrication of Advanced Materials VIII”, held in Singapore in 1999. This was the eighth in a series of symposia bringing together engineers and researchers from industry, academia and national laboratories, working on aspects related to the processing, fabrication and characterization of advanced materials, to present and discuss their latest findings. The proceedings also contain technical papers presented at two special symposia on biomaterials and magnesium technology.
From Lewis Miller, the celebrated floral designer and "Flower Bandit" himself, an intimate and joyous behind-the-scenes look at his signature Flower Flashes as they introduced bright moments of natural beauty into the city when they were needed most. Before dawn one morning in October 2016, renowned New York-based floral designer Lewis Miller stealthily arranged hundreds of brightly colored dahlias, carnations, and mums into a psychedelic halo around the John Lennon memorial in Central Park. The spontaneous floral installation was Miller's gift to the city—an effort to spark joy during a difficult time. Nearly five years and more than ninety Flower Flashes later, these elaborate flower bombs—bursts of jubilant blooms in trash cans, over bus canopies, on construction sites and traffic medians—have brought moments of delight and wonder to countless New Yorkers and flower lovers everywhere, and earned Miller a following of dedicated fans and the nickname the "Flower Bandit." After New York City entered lockdown, Miller doubled down, creating Flower Flashes outside hospitals to express gratitude to frontline health workers and throughout the city to raise spirits. This gorgeous and poignant visual diary traces the phenomenon from the first, spontaneous Flower Flash to the even more profound installations of the pandemic through a kaleidoscopic collage of photos documenting the Flower Flashes, behind-the-scenes snapshots, Miller's inspiration material, fan contributions, and more.
This book is tailored designed for both researchers as well as academics teaching or introducing Advanced Manufacturing course to their classrooms. It presents the current state of research in this field of research and major challenges identified so far, for the integration of additive manufacturing into chemical processes. Unique capability of transforming materials into functional devices with specific geometry using the emerging additive manufacturing technologies has stimulated significant interest in biology, engineering and materials science, to provide custom-made designs for tailored applications. However, the applications of this emerging technology in the field of chemical sciences and engineering have started very recently. Therefore, the major focus of this book is to introduce the basic principles of additive manufacturing practices as well as advent into conventional chemical processes and various unit operations. The potential advantage of introducing these additive manufacturing technologies has the potential to scale down large scale chemical processes into small scale, which offers several advantages including lower foot print, waste reduction and efficient heat integration as well as distributed chemical manufacturing.
Sustainable Fibres for Fashion and Textile Manufacturing presents the latest technical information about innovative natural and synthetic materials, helping the reader to understand sustainable fibres and raw materials for fashion and textile manufacturing. With a particular focus on apparel manufacturing, different applications of sustainable fibres are explored along with manufacturing techniques and details of the material properties. New research investigating nontraditional sources of textile fibres such as lotus, orange, milk, seaweed, corn, and mushroom are all presented, providing a uniquely comprehensive resource. Drawing on work by contributors from a variety of fields and roles in industry and academia, this book shares solutions and new perspectives on this interdisciplinary topic more widely in the hope of leading to research breakthroughs. - Shares a wealth of valuable data and results from research into sustainable cellulosic, lingo-cellulosic and protein fibres - Includes full technical descriptions of newly explored sustainable fibres, including chemical structures and structural properties - Presents a strong focus on improving sustainability of the industry through practical measures spanning disciplinary boundaries to address this complex issue
Additive Manufacturing Materials and Technologies discusses the recent developments and future possibilities in additive manufacturing. The book focuses on advanced technologies and materials, with chapters centered on shape memory materials, alloys and metals, polymers, ceramics, thermosets, biomaterials, and composites. Fiber-reinforced materials are covered as well, as are the life cycle and performance criteria of 3D printed materials. Other chapters look at the various applications of these materials and processing techniques, covering their use in the aerospace and automotive sectors, construction, bioengineering, and the pharmaceutical industry. Various additive manufacturing techniques such as electron beam melting, selective laser melting, laser sintered, fused deposition, and more are also studied. - Presents a comprehensive overview of recent advances in additive manufacturing technology and materials research and development - Outlines the processing methods, functionalization, mechanics, and applications of additive manufactured materials and technology - Summarizes lifecycles and performance parameters of 3D printed materials - Focuses on the types of shape memory materials and smart materials used in 3D printing in industrial applications and their applications