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Artifacts of R. Buckminster Fuller, Vol. 4: The Geodesic Revolution, Part 2, 1960-1983

The fourth and final volume of the Garland series The Artifacts of R. Buckminster Fuller, edited with descriptions by James Ward. It catalogs Fuller's drawings and designs from 1960 to 1983 — the second half of the geodesic period — culminating in the Expo '67 dome, the Fuller & Sadao partnership, urban megastructures, and a closing appendix by engineer Don L. Richter.

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Artifacts of R. Buckminster Fuller, Vol. 4: The Geodesic Revolution, Part 2, 1960-1983

"The United States Pavilion at Expo '67 in Montreal was the crowning commission of Fuller's architectural career. Immediately recognized as the symbol of this international fair, the geodesic dome assumed a position on the vanguard of modern design that it had not known since its invention in the late forties."

Overview

This is Volume Four of The Artifacts of R. Buckminster Fuller: A Comprehensive Collection of His Designs and Drawings in Four Volumes, edited with descriptions by James Ward and published by Garland Publishing (New York and London), copyright 1984 by the Estate of R. Buckminster Fuller. Its subtitle is "The Geodesic Revolution, Part 2, 1960-1983." It is the concluding volume of a four-part set:

  • Volume One — The Dymaxion Experiment, 1926-1943
  • Volume Two — Dymaxion Deployment, 1927-1946
  • Volume Three — The Geodesic Revolution, Part 1, 1947-1959
  • Volume Four — The Geodesic Revolution, Part 2, 1960-1983

Like the rest of the series, the volume is a primary-source catalog. Each project receives a short editorial description by Ward, followed by reproductions of Fuller's drawings, sketches, patent sheets, and presentation renderings. The book closes with an appendix, "Working with Buckminster Fuller," by Don L. Richter, a separately copyrighted memoir by the engineer who developed stressed-skin geodesic domes at Kaiser Aluminum.

James Ward, at the time of writing a visiting professor at Trinity College, Hartford, studied engineering as an undergraduate and took a Ph.D. in the history of art from the Institute of Fine Arts, NYU, with a dissertation on Le Corbusier's villa Les Terrasses.

Period and scope

The volume spans the most mature and publicly visible phase of Fuller's career, from 1960 to his death in 1983. Where Volume Three covered the invention and early refinement of the geodesic dome, Volume Four documents the geodesic principle applied at full scale and across the globe — from golf-club domes in Tokyo to airports in India, from a self-built family residence in Carbondale to a two-mile-high floating tetrahedral city. The arrangement is broadly chronological by project date, intermixing built commissions, unbuilt proposals, and U.S. patents.

Ward's organization

The catalog runs as a sequence of dated project entries (chapters), opening with the Proposed Geodesic Dome for a Shopping Center in Montreal (1960) and the Yomiuri Golf Club Geodesic Dome, Tokyo (1961-1963) — described as possibly Fuller's earliest attempt at an aspension structure. Interleaved among the architectural projects are the patents that codified Fuller's structural ideas, including:

  • Octet Truss / Synergetic Building Construction Patent (granted 5/30/61) — the octahedron-tetrahedron space truss that "can fill any kind of space."
  • Tensegrity / Tensile-Integrity Structures Patent (11/13/62) — solid members held apart in tension by cables, never touching directly.
  • Submarisle (Undersea Island) Patent (3/12/63) — a submerged depot for loading submarines, a return to Fuller's 1920s floating-island ideas.
  • Aspension Geodesic Structures (7/7/64), Monohex and Laminar Dome patents (1965), Star Tensegrity Octahedral Truss (1967), and later Hexa-Pent, Floatable Breakwater, Nonsymmetrical Tensegrity, and Tensegrity Module patents through 1980.

Ward's descriptions consistently locate each design within Fuller's evolving structural vocabulary — aspension, monohex, tensegrity, laminar, octet — rather than treating projects in isolation.

The Fuller & Sadao partnership

A central thread of the volume is the firm Fuller & Sadao (1964-1983). Ward includes a profile of Shoji Sadao, born and raised in Los Angeles, who earned his architecture degree at Cornell in 1954 and first met Fuller there in 1952 while helping erect a twenty-foot lath globe of thirty-one great circles. Sadao assisted with a new edition of the Dymaxion Airocean World Map (1954) and, after years at the lighting firm Edison Price, Inc., formally joined Fuller in 1964. The partnership produced the majority of the built and proposed work in this volume, including the Expo '67 pavilion, the Yomiuri Tower, airports for India, and numerous campus and civic commissions.

Signature projects

  • United States Pavilion, Expo '67, Montreal (1966-1967) — the three-quarter geodesic sphere built on the star tensegrity truss perfected in the mid-1960s. Ward calls it "the crowning commission of Fuller's architectural career": a dynamic structure with escalators, a penetrating monorail, and a triangulated acrylic skin fitted with computer-controlled sun shades. A 1964 trabeated-truss design preceded the built version, and a 1979 restoration entry (replacing burned acrylic with teflon-coated fiberglass) closes the pavilion's story.
  • Residence of R. Buckminster Fuller and Anne Hewlett Fuller, Carbondale, Illinois (1960) — possibly the only geodesic residence Fuller ever lived in, a conservatively fenestrated two-story dome designed with Al Miller of the Pease Company.
  • Old Man River, East St. Louis, Illinois (1970-1974) — Fuller's "most ambitious planned city organized under a single roof," a circular town beneath a domical umbrella 2,200 feet in diameter and 500 feet high, presented through sketches and a finished project.
  • Three Utopian Projects (1960-1970) — the two-mile-wide, two-mile-high tetrahedral city for 300,000 families (buoyant enough to float at sea), and the mile-wide flying geodesic spheres Ward calls "Fuller's first domestic satellites." Related megastructure studies include Triton City and Project Spadina.
  • Global commissions — the Yomiuri Tower (Japan, 1966), International Airports for India (New Delhi, Bombay, Madras, 1972), the Penang Urban Center, Malaysia (1974), and shelter projects from Ban Chiang, Thailand to the Unisphere Earth Resources Observatory in Sioux Falls.
  • Watercraft and late work — the Spruce sailboat, the Sailor Cat catamaran, Rowing Needles and breakwater patents, the Now House (1975-1976), and production-dome programs, down to the final Hanging Storage Shelf Unit Patent (3/22/83).

Appendix: Working with Buckminster Fuller

The volume ends with Don L. Richter's memoir of his own pioneering dome engineering. Richter recounts reasoning that a properly shaped, tough enough skin could carry the structural load and "replace the frame totally," leading to research on compound-curved shell shapes from 1949 onward. At Kaiser Aluminum's R&D division he combined stressed-skin principles with space-truss and geodesic geometry to build the 150-foot all-aluminum Hawaii Dome and the Hawaiian Village Convention Center (1957) — work that later continued under Temcor. The appendix supplies an engineer's-eye complement to Ward's design-historical catalog.

Significance

As the final installment of the Garland series, Volume Four completes the most comprehensive published record of Fuller's design output. It documents the geodesic dome's transition from experimental novelty to internationally recognized architecture, anchored by Expo '67, and pairs Fuller's drawings with Ward's art-historical descriptions and Richter's technical recollections. Printed on acid-free 250-year-life paper, the set was conceived as a durable primary-source archive of Fuller's "designs and drawings" rather than a narrative biography.

See Also

Sources

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