James H. Williams Jr. Explained
James Henry Williams Jr. is a mechanical engineer, consultant, civic commentator, and teacher of engineering. He is currently Professor of Applied Mechanics in the Mechanical Engineering Department at the Massachusetts Institute of Technology (MIT). He is regarded as one of the world's leading experts in the mechanics, design, fabrication, and nondestructive evaluation (NDE) of nonmetallic fiber reinforced composite materials and structures. He is also Professor of Writing and Humanistic Studies at MIT.
Williams began his career in 1960 as an apprentice machinist at the Newport News Shipbuilding and Dry Dock Company. Within eight years he graduated from The Apprentice School, earned SB and SM engineering degrees from MIT, and returned to the Shipyard as a senior design engineer. Within another two years, he earned a PhD from the University of Cambridge, where he conducted theoretical elasticity and shell theory. He then chose to join the faculty at MIT, where he has spent the bulk of his career.
Early life, education, and industrial career
Williams was born in Newport News, Virginia, where he attended the segregated public schools. He was a rambunctious, "hell-raising" student who never took a textbook home. Still, Williams's brilliance was recognized by some of his teachers who permitted him to read whatever he chose while in school and devised especially difficult tests for him, independent of his classmates. Along with one or more of his teachers, he would also occasionally make up and grade the quizzes of his classmates. He went on to win statewide prizes in mathematics and science. He was also featured as a flutist in his high school band, and as an underclassman earned first chair in the all-state concert band.[1] [2]
In 1960, Williams was among the earliest African-Americans admitted to the selective Newport News Shipyard Apprentice School. It attracts an average of about 4500 applications per year for approximately 250 openings, with some of the applicants having earned bachelor's degrees.[3] [4] Williams is often regarded as the top academic student in the century-long history of the Apprentice School. In 1961 he won the Charles F. Bailey Bronze Medal (for the highest academic record by a first-year apprentice); in 1962, the Charles F. Bailey Silver Medal (highest academic record by a second-year apprentice); and, in 1963, the Charles F. Bailey Gold Medal (highest academic record by a third-year apprentice). Furthermore, in 1963 the Shipyard chose to award him a four-year full Homer L. Ferguson Scholarship to MIT. Throughout his years as a student at MIT, he consistently returned to the Shipyard during vacations and summers.[5]
In 1965, the Apprentice School awarded Williams the five-year diploma of Mechanical Designer. In 1967, he graduated from MIT with an SB in mechanical engineering, and after completing his SM in mechanical engineering in the winter of 1968, Williams returned to the Shipyard. During that period, he performed a range of mechanics calculations on the catapults, arrester cables, and power and propulsion systems of the nuclear-powered aircraft carrier USS Nimitz (CVN-68). During this same period, he held the title of Senior Design Engineer and was the only black among the hundreds of engineers at the Shipyard. In the fall of 1968, Williams entered the University of Cambridge (Trinity College) in England, earned the PhD in engineering, and returned to America to the mechanical engineering faculty of MIT in 1970.[6] [7]
Teaching
Throughout his MIT career, Williams has been repeatedly acclaimed and honored with numerous awards.[8] [9] [10] [11] [12] [13] [14] [15] [16] His teaching awards at MIT include:
- 1973: Everett Moore Baker Memorial Award for Excellence in Undergraduate Teaching (Top MIT teaching prize awarded solely by students; he was the first Mechanical Engineering professor to receive this award.)
- 1981: Jacob P. Den Hartog Distinguished Educator Award (Top teaching award in the Mechanical Engineering Department at MIT; he received the inaugural award.)
- 1991: School of Engineering Professor of Teaching Excellence (He was the inaugural occupant of this MIT chair.)
- 1993: MacVicar Faculty Fellow (Top MIT teaching prize awarded through MIT's executive administration for undergraduate education, requiring broad faculty and student endorsements; he was the first Mechanical Engineering professor to receive this award.)
Having served as the first Housemaster of MIT's undergraduate dormitory New West Campus Houses and having supervised more than 100 research theses, Williams is a highly regarded mentor of both undergraduate and graduate students.[17] [18] [19] [20] [21] [22] [23] [24] [25]
Research
In the early 1970s, Williams sought to better understand the emerging carbon fiber reinforced polymeric composite materials, which were being touted as new materials to elevate the mechanical performance of structures. (Today, these materials are used in fighter and commercial aircraft, automobiles, ships, golf clubs, tennis racquets, and myriad other structures.) One of the major manufacturers of these new materials had observed that newly fabricated structures built from them had unacceptably high variabilities, resulting in structures of low reliability. Williams was retained as a consultant to determine why.[26] In addition, Williams's efforts were recognized by both industry and the National Science Foundation and he was selected, through a university-industrial program, to spend the summer of 1974 at a major composites manufacturing facility.[27]
Williams soon realized that the unpredictability of the materials' properties was due to undetected flaws or damage within the materials as a consequence of either improper fabrication or handling, as well as the selection of the various constituents. When he examined the technical and research literature on the nondestructive testing (NDT) to find and characterize the flaws in those materials, he found very little. Moreover, the NDT results that he found generally related to metals, and most of them were qualitative. Then, in 1974, Williams founded the Composite Materials and Nondestructive Evaluation Laboratory in MIT's Mechanical Engineering Department. (He preferred the term "nondestructive evaluation" to the more common term of "nondestructive testing" to emphasize his interests in the broad structural behavior of materials even in the absence of macroscopic flaws.)
With his advanced facilities in applied mathematics and experienced insights in mechanical design, Williams sought—and his subsequent career is distinguished by—quantitative analyses and characterizations of composite materials' properties and residual life based on a combination of nondestructive measurements and theoretical mechanics. Such quantitative analyses and materials characterizations have elevated the field of nondestructive testing and increased the reliable use of composite materials and structures.
Williams has subsequently compiled an extensive list of research and consulting results—in several instances, groundbreaking "firsts"—in the design, fabrication, strength analysis, residual strength, fatigue life, and NDE of fiber reinforced composite materials and structures. As an industrial and governmental consultant and through his MIT Lab with his research students, he advanced the understanding of modern composite materials and structures, as well as the systems for experimentally testing them.[28] [29] [30] Among many achievements, he(1) conducted the theoretical stress analyses of isotropic and anisotropic shells subjected to symmetric and asymmetric loads;[31] [32] [33] [34] [35] (2) produced the first quantitative correlations for the solid-particle erosion of carbon fiber polymeric composites;[36] (3) conducted the stress analyses of adhesively bonded joints in composites;[37] [38] (4) analyzed the enhancement of composite properties by the introduction of thermoplastic microstructures;[39] [40] [41] [42] (5) conducted the elastic and plastic acoustic emission monitoring of materials and structures, including structural bridge steels;[43] [44] [45] [46] [47] [48] [49] (6) established the forefront of the quantitative thermographic analyses of composite materials and structures;[50] [51] [52] [53] [54] [55] (7) theoretically predicted and experimentally demonstrated the input-output signatures of ultrasonic transducers;[56] [57] (8) hypothesized and then produced the first ultrasonic wave - fatigue life correlations of as-fabricated composites;[58] [59] (9) hypothesized and then produced the first ultrasonic wave - residual strength correlations of impact-damaged composites;[60] (10) performed theoretical and applied ultrasonics of metals with and without macroscopic cracks, including a focus on structural bridge steels;[61] [62] [63] [64] [65] (11) performed theoretical and applied ultrasonics of composites;[66] [67] [68] [69] [70] [71] [72] [73] [74] [75] [76] [77] [78] [79] [80] (12) conducted theoretical and experimental dynamic fracture of composite materials and structures;[81] [82] [83] [84] [85] [86] [87] (13) performed theoretical analyses of wave propagation in anisotropic media as related to composite materials and structures;[88] [89] [90] [91] [92] [93] [94] [95] (14) developed statistical pattern recognition concepts for NDE;[96] [97] (15) devised strategies for the residual life prediction of composite aircraft structures;[98] [99] [100] and (16) developed acoustic emission and ultrasonic versus load correlations for synthetic braided mooring lines and composite tension legs for offshore deepwater platforms.[101] [102] [103] [104]
For the decade up to 2012, he and his research students have focused on the structural integrity damage assessment and repair of modern composites, with an emphasis on naval structures; and he continues to write sole-author documents on a range of technical topics, including several of the areas mentioned above, mechanical vibration and shock mitigation, and biomimetics.
From the mid-1970s to the early 2000s, Williams also(1) conducted theoretical analyses on the earthquake isolation of buildings and structures by devising the highly unconventional concept of supporting them on sliding foundations;[105] [106] (2) developed wave-like analyses of the dynamics and control of large space structures for earth-orbiting structural systems;[107] [108] [109] [110] [111] [112] [113] and (3) performed numerous major governmental and industrial consultations, as briefly described below.
By the early 1980s, he had devised ultrasonic laboratory systems for monitoring the structural integrity of composite structures in high performance aircraft.[114] He is known for having produced "the first theoretical models that predicted the acousto–ultrasonic waveforms as actually observed" in experiments and practice, as conducted at NASA Lewis and elsewhere.Today, Williams is broadly recognized as one of the world's leading researchers in the mechanics and nondestructive testing of composite materials and structures: He was chosen by the editorial board of the American Society for Nondestructive Testing to be the first guest technical editor of its Special Focus issue on the NDT of Composites.
Williams has also shown a sense of humor; 1) he led a group of students in building the world's largest yo-yo and tested it from the tallest building in Cambridge, Massachusetts;[115] [116] (2) he has been called one of Boston's men of elegance and style;[117] [118] [119] [120] and (3) he derived a mathematical proof of the counterintuitive number of rotations made by a non-slipping smaller cylinder rolling around a larger stationary cylinder, as presented in the popular "Ask Marilyn" column of the 72-year-old Parade Magazine, which is inserted into about 700 U.S. Sunday newspapers.[121] [122]
Consulting
During his career, Williams has conducted dozens of industrial and governmental consultations including(1) papermaking calender rolls, for which "he is considered, by virtue of his extensive work in the field, to be the nation's leading expert on stresses in rotary paper dryers";[123] (2) the first automated system for installing recessed highway lane delineation reflectors;[124] (3) an earthquake analysis of the 500 KV bus system of the British Columbia (Canada) hydroelectric power generating station and the design of an isolation system to protect its electrical lines during seismic activity;[125] (4) the design of composite rocket motor casings;[126] (5) the residual-life prediction of composite aircraft structures;[127] (6) the stress analysis of a high-speed optical pulsing system;[128] (7) the stress analysis of pelvic implants and bone stints for the Orthopædic Unit of the Massachusetts General Hospital;[129] (8) the effect of ultrasonic irradiation on the enhancement of composite fabrication;[130] (9) the ultrasonic NDE delineation of strength and rupture modes in adhesively bonded joints;(10) the design of deepwater mooring composite systems for offshore oil platforms;[131] [132] [133] (11) an NDE regimen for the structural acceptance of composite automotive leaf springs;[134] among others.
Controversies
MIT fasting protest
In April 1991, Williams—at that time, the only native-born black American faculty member in the combined School of Engineering and School of Science at MIT—conducted a fasting sit-in each Wednesday throughout April. He was protesting the lack of black faculty and a lack of inspirational education for minority students.[135] [136] During his protest, he set up a temporary office in the corridor at the entrance of the offices of the MIT president and provost. He observed that some aspects of the black community have disproportionately suffered attendant with integration because, in the broadest sense, many talented blacks have left the black community (no matter where it exists)—they no longer live in or relate to it; "they have been encouraged to escape from their roots." The residual black community is less educated and financially poorer. He characterized this phenomenon as "neocolonialist."[137] [138] [139] [140] [141] [142] [143] [144] [145] [146] [147]
Crash of American Airlines Flight 587
On November 12, 2001, shortly after takeoff from John F. Kennedy International Airport, American Airlines Flight 587, an Airbus Industrie A300-600, crashed in Queens, New York, killing 251 passengers, a crew of 9, and 5 people on the ground. At the request of several American Airlines pilots, Williams analyzed and then challenged the inspection requirements and the accident investigation conclusions of Airbus Industrie, the Federal Aviation Administration (FAA), and the National Transportation Safety Board (NTSB)—all of whom to varying degrees blamed the co-pilot of Flight 587 for the crash. The investigation and controversy concerning the crash focused on (1) the co-pilot's actions during takeoff, and (2) the aircraft's vertical stabilizer of the tail section, a complex structure of advanced composites. The vertical stabilizer on Flight 587 snapped off and landed in Jamaica Bay, away from the fuselage crash site.
According to Williams, Airbus adopted an inadequate inspection policy for its composite tail, the FAA approved Airbus's deficient inspection policy, and the NTSB mis-analyzed the cause of the airline disaster.
In so far as the vertical stabilizer was concerned, Airbus's nondestructive inspection policy was that damage that could not be seen with the unaided eye would not compromise its structural integrity. Such an inspection protocol greatly concerned Williams who characterized it as "a lamentably naive policy."[148] [149] Williams further stated and was frequently quoted in the print and broadcast media as describing Airbus's inspection policy as "analogous to assessing whether a woman has breast cancer by simply looking at her family portrait."[150] [151] [152] [153] [154]
Through internet postings,op-ed pieces,industrial journal articles,letters,[155] interviews in magazines and newspapers[156] [157] and TV appearances,[158] [154] Williams challenged the preliminary remarks and the final report of the NTSB's accident investigation. Although there were several critics of the investigation, including varied pilots and pundits, Williams is widely regarded as the major engineering voice providing pushback against the conclusion that the air disaster was essentially the fault of the co-pilot.
Based largely on the steadfast criticism of Airbus and the NTSB by Williams, in a tour de force of engineering and civic commentary, he clearly influenced both the NTSB[159] and Airbus[160] to reverse their positions on the cause of the American Airlines 587 crash as well as the required inspection procedures, thus likely saving hundreds of lives of current and future commercial airline passengers.[161] [162] [163] [164]
Publications
Williams has written hundreds of technical publications in refereed journals, conference proceedings, and major reports to industrial and governmental agencies, dozens of non-technical op-ed and political commentaries, and two books. He is the author of the introductory textbook Wave Propagation and of the unconventional textbook Fundamentals of Applied Dynamics, which is a blend of history, dynamics and vibration.
Notes and References
- Book: Williams, James H. Jr.. I Will Love You, Forever!—The Quantum Mechanics of Love. 2009. Ingram Book Group. 978-0615268132.
- News: Forest. Angela. A Wild Experiment. Daily Press. 2 May 2004.
- News: Grimes. Cathy. New Apprentice School set to open in Downtown Newport News. The Daily Press. 30 November 2013.
- News: Shipyard Apprentice School—Ground-breaking Ceremony at Newport News. MarineLink.com. 6 May 2012.
- Burke Tells Grads to Take Initiative. The Broad A. February 1964. X. 1. 1.
- Web site: MIT home page: James H. Williams Jr.. MIT.
- News: MIT Professor Williams to help develop writing courses for engineering students. MIT Tech Talk. 17 November 2000.
- News: Williams Is Appointed to Engineering Chair. MIT Tech Talk. 9 October 1991. 3.
- News: Di Iorio. Robert C.. Six New MacVicar Fellows Honored at Luncheon. MIT Tech Talk. 10 February 1993.
- News: Williams wins Edison Award. MIT Tech Talk. 24 February 1993.
- Web site: J.P. Den Hartog Distinguished Educator Award . MIT Mechanical Engineering Department . dead . https://web.archive.org/web/20131105133643/http://meche.mit.edu/about/awards/ . 2013-11-05 .
- News: Waugh. A.C.. Williams and Crayton are named 1998 YMCA Black Achievers. MIT Tech Talk. 3 March 1999. 3.
- News: Montgomery. M.R.. Engineering Success MIT's James T. Williams helps students by building on their knowledge of themselves. https://archive.today/20131207043413/http://www.highbeam.com/doc/1P2-8229339.html. dead. 7 December 2013. Boston Globe. 26 May 1993. 75.
- News: News Notes. Bay State Banner. 4 March 1993. 6.
- News: Birthday Tribute. MIT Tech Talk. 12 August 1981. 3.
- News: Reeves. Curtis. MIT awards given; 33 prizes presented. The Tech. 15 May 1973.
- Karagianis. Elizabeth. James H. Williams Jr. – Department of Mechanical Engineering. MIT Spectrum. Fall 1994. 4.
- News: Lamberti. Andrea. Students protest minority policies. The Tech. 3 May 1991. 1.
- News: Peterson. Simone. Be mindful of tone in speeches. The Tech. 29 October 1985.
- News: Huang. T.T.. What will The Tech do now?. The Tech. 4 February 1986.
- News: Jungwirth. Craig. Williams gives own view. The Tech. 22 October 1985. 1.
- News: Hsu. Susan. etal. Baker Award is not career killer. The Tech. 7 May 1991. 5.
- News: Mayer. Thomas. New dorm master hopeful. The Tech. 16 September 1975. 1.
- News: Sisters in Life. MIT Tech Talk. 6 May 1981. 3.
- News: Vedantham. Anu. McBay, Manning skip forum. The Tech. 7 April 1987.
- NDT of Composites. Materials Evaluation. July 2007. James H. Jr.. Williams.
- News: Williams Returns from New University-Industry Program. MIT Tech Talk. 11 September 1974.
- Williams. James H. Jr.. S.S. Lee. Promising Quantitative Nondestructive Evaluation Techniques for Composite Materials. Materials Evaluation. April 1985. 43. 5. 561 - 565.
- Williams. James H. Jr.. Thermal Tests Detect Fiberglass Flaws. MIT Sea Grant, Quarterly Report. Fall 1979.
- Reports on Research: Whispering Fatigue. MIT Industrial Liaison Program. April 1980. 7. 7.
- Williams. James H. Jr.. Inextensional Approximations in Cylindrical Shells. AIAA Journal. August 1973. 11. 8. 1213 - 1214. 10.2514/3.6903. 1973AIAAJ..11.1213W.
- Williams. James H. Jr.. Deformation in Multiple Tier Cylindrical Shells. Journal of the Engineering Mechanics Division. October 1973. 99. EM5. 1114 - 1118. 10.1061/JMCEA3.0001822.
- Williams. James H. Jr.. Line Load on Cylindrical Shell with End Plates. Journal of Pressure Vessel Technology. May 1974. 96. 2. 131 - 136. 10.1115/1.3454151.
- Williams. James H. Jr.. S.S. Lee. Centers of Twist and Shear in Cylindrical Shell Beams of Arbitrary Section. Journal of Applied Mechanics. September 1974. 41. 3. 829 - 931. 10.1115/1.3423409. 1974JAM....41..829W.
- Williams. James H. Jr.. Line Load Displacements in Orthotropic Cylindrical Shells. Journal of Pressure Vessel Technology. August 1975. 97. 3. 232 - 233. 10.1115/1.3454300.
- Williams. James H. Jr.. E.K. Lau. Solid Particle Erosion of Graphite-Epoxy Composites. WEAR. 1974. 29. 2. 219 - 230. 10.1016/0043-1648(74)90072-6.
- Williams. James H. Jr.. Stresses in Adhesive Between Dissimilar Adherends. Journal of Adhesion. 1975. 7. 2. 97 - 107. 10.1080/00218467508075042.
- Williams. James H. Jr.. Z. Bin Ahmad. Interlaminar Stresses in Composites Having Arbitrary Stacking Sequences. NTA Journal. Summer 1980. 54. 3. 76 - 86.
- Williams. James H. Jr. . S.S. Lee . C.S. Wasserman. Fibre Intersections in a Planar Randomly Oriented Fibre Composite. Fibre Science and Technology. July 1977. 10. 3. 161 - 177. 10.1016/0015-0568(77)90018-5.
- Kousiounelos. P.N.. James H.. Williams Jr.. Heterogeneous Anisotropic Model for Notched Fibre Composites. Fibre Science and Technology. October 1977. 10. 4. 299 - 311. 10.1016/0015-0568(77)90006-9.
- Williams. James H. Jr.. B.J. Bosy. Fibre Orientation Efficiency Factor for Planar Randomly Oriented Discontinuous Fibre Composites. Fibre Science and Technology. October 1977. 10. 4. 319 - 322. 10.1016/0015-0568(77)90008-2.
- Williams. James H. Jr.. P.N. Kousiounelos. Thermoplastic Fibre Coatings Enhance Composite Strength and Toughness. Fibre Science and Technology. March 1978. 11. 2. 83 - 88. 10.1016/0015-0568(78)90001-5.
- Williams. James H. Jr.. S.S. Lee. Monitoring of Elastic Stresses by Acoustic Emission. International Advances in Nondestructive Testing. 1977. 5. 265 - 273. W.J.. McGonnagle.
- Williams. James H. Jr.. S.S. Lee. Acoustic Emission Monitoring of Fiber Composite Materials and Structures. Journal of Composite Materials. October 1978. 12. 4. 348 - 370. 10.1177/002199837801200402. 1978JCoMa..12..348W. 135600871.
- Williams. James H. Jr.. D.M. Egan. Acoustic Emission Spectral Analysis of Fiber Composite Failure Mechanisms. Materials Evaluation. January 1979. 37. 1. 43 - 47.
- Williams. James H. Jr.. S.S. Lee. Acoustic Emission from Graphite/Epoxy Composite Containing Interlaminar Paper Inclusions. NDT International. 12. February 1979. 5 - 7. 10.1016/0308-9126(79)90033-6.
- Williams. James H. Jr.. G.P. Emerson. Acoustic Emission/Elastic Stress Behavior in a Magnesium Alloy. Materials Evaluation. October 1979. 37. 11. 73 - 80.
- Williams. James H. Jr.. S.S. Lee. Acoustic Emission During Unloading of Elastically Stressed Magnesium Alloy. Journal of Testing and Evaluation. January 1982. 10. 1. 12 - 16. 10.1520/jte11563j. 2060/19780018515. 56039176. free.
- Williams. James H. Jr.. S.S. Lee. Acoustic Emission Characterization Using AE [Parameter] Delay]. Materials Evaluation. July 1983. 41. 8. 961 - 966.
- Williams. James H. Jr.. H.S. Mansouri. S.S. Lee. One-Dimensional analysis of Thermal nondestructive Detection of Delamination and Inclusion Flaws. British Journal of Non-Destructive Testing. May 1980. 22. 3. 113 - 118.
- Williams. James H. Jr.. H.S. Mansouri. S.S. Lee. Thermal Nondestructive Testing of Fiberglass Laminates Using Liquid Crystals. British Journal of Non-Destructive Testing. July 1980. 22. 4. 184 - 190.
- Williams. James H. Jr.. H.S. Mansouri. S.S. Lee. Thermal Nondestructive Testing of Fiberglass Laminate Containing Simulated Flaws Orthogonal to Surface Using Liquid Crystals. British Journal of Non-Destructive Testing. March 1982. 24. 2. 76 - 81.
- Williams. James H. Jr.. R.J. Nagem. A Liquid Crystals Kit for Structural Integrity Assessment of Fiberglass Watercraft. Materials Evaluation. February 1983. 41. 2. 202 - 210.
- Cai. L.-W.. A.F. Thomas. James H. Williams Jr.. Thermographic Nondestructive Evaluation of Polymeric Composite Sandwich Panels. Materials Evaluation. September 2001. 59. 9. 1061 - 1071.
- Thomas. A.F.. L.-W. Cai. James H. Williams Jr.. Nondestructive Testing of Polymeric Composite Sandwich Panels Via the Thermographic Halo. Materials Evaluation. November 2002. 60. 11. 1339 - 1349.
- Williams Jr.. James H.. S.S. Lee. Promising Quantitative Nondestructive Evaluation Techniques for Composite Materials. Materials Evaluation. April 1985. 43. 5. 561 - 565.
- Drouillard. Thomas F.. Alex Vary. AE Literature—Acousto-Ultrasonic Reflections. Journal of Acoustic Emission. January–June 1994. 12. 1 - 2. 71.
- Williams. James H. Jr.. B. Doll. Ultrasonic Attenuation as an Indicator of Fatigue Life of Graphite Fiber Epoxy Composite. Materials Evaluation. May 1980. 38. 5. 33 - 37.
- Williams. James H. Jr. . H. Yuce . S.S. Lee. Ultrasonic and Mechanical Characterizations of Fatigue States of Graphite Epoxy Composite Laminates. The Journal of the Acoustical Society of America. April 1982. 40. 5. 560 - 565. 1983ASAJ...73Q2230W . 10.1121/1.389517 . 2060/19820009640 . 33451143 . free.
- Williams. James H. Jr.. N.R. Lampert. Ultrasonic NDE of Impact-Damaged Graphite Fiber Composite. Materials Evaluation. December 1980. 38. 12. 68 - 72.
- Williams. James H. Jr. . D.M. deLonga . S.S. Lee. Correlations of Acoustic Emission with Fracture Mechanics Parameters in Structural Bridge Steels During Fatigue. Materials Evaluation. October 1982. 40. 11. 1184 - 1189.
- Williams. James H. Jr. . E.B. Kahn . S.S. Lee. Effects of Specimen Resonances on Acoustic-Ultrasonic NDE. Materials Evaluation. December 1983. 41. 13. 1502 - 1510.
- Williams. James H. Jr. . H. Karagulle . S.S. Lee. Ultrasonic Testing of Plates Containing Edge Cracks. Materials Evaluation. January 1986. 44. 1. 100 - 107.
- Williams. James H. Jr. . H. Karagulle . S.S. Lee. Stress Waves in an Isotropic Elastic Plate Excited by a Circular Transducer. Materials Evaluation. March 1986. 44. 4. 455 - 462.
- Book: Williams Jr., James. International Advances in Nondestructive Testing. 12. 1986. Gordon and Breach Science Publishing. 147 - 192 . S.S. Lee . H. Karagulle. W.J. McGonnagle. Input-Output Characterizations on an Ultrasonic Testing System by Digital Signal Analysis.
- Williams. James H. Jr.. S.S. Lee. Stress Wave Attenuation in Thin Structures by Ultrasonic Through-Transmission. Journal of Nondestructive Evaluation. 1980. 1. 4. 277 - 285. 10.1007/bf00571808. 2027/uiug.30112106862946. 1980mit..reptQ....L. 111076502. free.
- Williams. James H. Jr. . H. Nayeb-Hashemi . S.S. Lee. Ultrasonic Attenuation and Velocity in AS/3501-6 Graphite Fiber Composite. Journal of Nondestructive Evaluation. 1980. 1. 2. 137 - 148. 10.1007/bf00566121. 135772192 .
- Williams. James H. Jr. . H. Nayeb-Hashemi . S.S. Lee. Ultrasonic Wave Propagation Loss Factor in Composite in Terms of Constituent Properties. Journal of Nondestructive Evaluation. 1980. 1. 3. 191 - 199. 10.1007/bf00567091. 137604291 .
- Williams. James H. Jr.. B. Doll. A Simple Wave Propagation Analysis of Piezoceramic NDE Transducer Response. Materials Evaluation. December 1982. 40. 13. 1374 - 1381.
- Williams. James H. Jr. . H. Karagulle . S.S. Lee. Ultrasonic Input-Output for Transmitting and Receiving Longitudinal Transducers Coupled to Same Face of Isotropic Elastic Plate. Materials Evaluation. May 1982. 40. 6. 655 - 662.
- Williams. James H. Jr. . S.S. Lee . H. Yuce. Ultrasonic Attenuation of a Void-Containing Medium for Very Long Wavelengths. Materials Evaluation. February 1984. 42. 2. 219 - 224.
- Karagulle. H.. James H. Williams Jr.. S.S. Lee. Application of Homomorphic Signal Processing to Stress Wave Factor Analysis. Materials Evaluation. October 1985. 43. 11. 1446 - 1454.
- Williams. James H. Jr.. S.S. Lee. Ultrasonic Wave Characterization of Polymers. Materials Evaluation. 1991. 49. 3. 351 - 355. 1991MatEv..49..351L.
- Yim. H.. James H. Williams Jr.. Formulation and Its Energy Balance Verification for Ultrasonic and Nondestructive Characterization of a Single Fiber Composite Interphase. Ultrasonics. September 1995. 33. 5. 377 - 387. 10.1016/0041-624x(95)00043-3.
- Yim. H.. James H. Williams Jr.. Database Generation and Parametric Study for Ultrasonic Nondestructive Characterization of a Single Fiber Composite Interphase. Ultrasonics. September 1995. 33. 5. 389 - 401. 10.1016/0041-624x(95)00044-4.
- Cai. L.-W.. James H. Williams Jr.. Large-Scale Multiple-Scattering Problems. Ultrasonics. November 1999. 37. 7. 435 - 462. 10.1016/s0041-624x(99)00029-3.
- Cai. L.-W.. James H. Williams Jr.. Full-Scale Simulations of Elastic Wave Scattering in Fiber-Reinforced Composites. Ultrasonics. November 1999. 37. 7. 463 - 482. 10.1016/s0041-624x(99)00030-x.
- Cai. L.-W.. James H. Williams Jr.. NDE via Stop Band Formation in Fiber Reinforced Composites Having Square Fiber Arrangements. Ultrasonics. November 1999. 37. 7. 483 - 492. 10.1016/s0041-624x(99)00031-1.
- Cai. L.-W.. James H. Williams Jr.. Transient Wave Ultrasonic Detection of Delaminations in Composite Sandwich Panels. Materials Evaluation. April 2005. 63. 4. 434 - 442.
- Cai. L.-W.. James H. Williams Jr.. Ultrasonic Detection of Delaminations in Composite Sandwich Panels Having Attenuation. Materials Evaluation. June 2005. 63. 6. 657 - 666.
- Williams. James H. Jr.. S.S. Lee. Double Cantilever Shear Beam Model of Dynamic Fracture in Duplex Fiber Composites. International Journal of Fracture. 1982. 19. 3. 3 - 16. 10.1007/bf00012488. 136982441.
- Williams. James H. Jr.. S.S. Lee. Double Cantilever Shear Beam model of Dynamic Fracture in Unidirectional Fiber Composites. Fibre Science and Technology. September 1982. 17. 2. 99 - 122. 10.1016/0015-0568(82)90039-2.
- Kousiounelos. P.N.. James H. Williams Jr.. Dynamic Fracture of Unidirectional Graphite Fiber Composite Strips. International Journal of Fracture. 1982. 20. 47 - 63. 10.1007/bf00942164. 137142627.
- Williams. James H. Jr.. P.N. Kousiounelos. Numerical Stability and Convergence Criteria for Equations for Dynamic Fracture in DCB Composite Specimens. Engineering Fracture Mechanics. 1981. 14. 1. 165 - 170. 10.1016/0013-7944(81)90025-4.
- Williams. James H. Jr.. S.S. Lee. P.N. Kousiounelos. Dynamic Crack Propagation and Arrest in Orthotropic DCB Fiber Composite Specimens. Engineering Fracture Mechanics. 1981. 14. 2. 427 - 438. 10.1016/0013-7944(81)90011-4.
- Kousiounelos. P.N.. James H. Williams Jr.. Approximate Mode I Velocity Correction Factors for 90° Unidirectional Fiber Composites. Fibre Science and Technology. February 1981. 14. 2. 91 - 97. 10.1016/0015-0568(81)90034-8.
- Kousiounelos. P.N.. James H. Williams Jr.. Approximate Mode II Velocity Correction Factors for 90° Unidirectional Fiber Composites. Engineering Fracture Mechanics. 1982. 16. 4. 483 - 496. 10.1016/0013-7944(82)90128-x.
- Williams. James H. Jr.. E.R.C. Marques. S.S. Lee. Stress Waves in Transversely Isotropic Media: The Homogeneous Problem. NASA Cr-3977. May 1986.
- Williams. James H. Jr.. E.R.C. Marques. S.S. Lee. Wave Propagation in Anisotropic Infinite Medium Due to an Oscillatory Point Source with Application to a Unidirectional Composite Material. NASA Cr-4001. July 1986.
- Williams. James H. Jr.. T.P. Liao. Acousto-Ultrasonic Input-Output Characterization of Unidirectional Fiber Composite Plate by SH Waves. NASA Cr-4087. 1987.
- Williams. James H. Jr.. T.P. Liao. Acousto-Ultrasonic Input-Output Characterization of Unidirectional Fiber Composite Plate by P Waves. NASA Cr-4162. 1988.
- Williams. James H. Jr.. T.P. Liao. Acousto-Ultrasonic Input-Output Characterization of Unidirectional Fiber Composite Plate by SV Waves. NASA Cr-4152. 1988.
- Williams. James H. Jr.. J.D. Renneisen. Input-Output Characterization of Fiber Composites by P Waves. NASA Contractor Report. 1989.
- Williams. James H. Jr.. J.D. Renneisen. Input-Output Characterization of Fiber Composites by SH Waves. NASA Contractor Report. 1989.
- Williams. James H. Jr.. J.D. Renneisen. Input-Output Characterization of Fiber Composites by SV Waves. NASA Contractor Report. 1989.
- Williams. James H. Jr.. S.S. Lee. Pattern Recognition Characterizations of Micromechanical and Morphological Materials States via Analytical Quantitative Ultrasonics. International Advances in Nondestructive Testing. 1977. 5. 265 - 273. Warren J. McGonnagle.
- Cimaszewski. S.A.. H. Yim. James H. Williams Jr.. Multiparameter Statistical Determination of Single Fibre Interphase Properties. Ultrasonics. 1995. 33. 5. 403 - 410. 10.1016/0041-624x(95)00045-5.
- Williams. James H. Jr.. Prediction of Remaining Useful Life of Aircraft Components Using Nondestructive Inspection Data. Afrl/MLLP. July 1999. Final Report. Wright Patterson AFB. Ohio.
- Nagem. R.J.. J.M. Seng. James H. Williams Jr.. Residual Life Predictions of Composite Aircraft Structures via Nondestructive Testing, Part 1: Prediction Methodology and Nondestructive Testing. Materials Evaluation. September 2000. 58. 9. 1065 - 1074.
- Nagem. R.J.. J.M. Seng. James H. Williams Jr.. Residual Life Predictions of Composite Aircraft Structures via Nondestructive Testing, Part 2: Degradation Modeling and Residual Life Prediction. Materials Evaluation. November 2000. 58. 11. 1310 - 1319.
- Williams. James H. Jr.. S.S. Lee. Acoustic Emission/Rupture Load Characterizations of Double-Braided Nylon Rope. Marine Technology. July 1982.
- Williams. James H. Jr.. J. Hainsworth . S.S. Lee. Acoustic-Ultrasonic Nondestructive Evaluation of Double-Braided Nylon Ropes Using the Stress Wave Factor. Fibre Science and Technology. 1984. 21. 3. 169 - 180. 10.1016/0015-0568(84)90012-5.
- Williams. James H. Jr.. J.M. Connolly. K.M. Malek. S.S. Lee. Ultrasonic Wave Velocity in Double-Braided Nylon Rope. Fibre Science and Technology. 1984. 21. 1. 41 - 57. 10.1016/0015-0568(84)90064-2.
- Williams. James H. Jr.. A.U. Kuehnle. S.S. Lee. Identification of Damage Levels in Synthetic Rope by Ultrasonic Spectral Pattern Recognition. Report to US Navy. 1985.
- Williams. James H. Jr.. Designing Earthquake-Resistant Structures. NTA Journal. January 1977. 1. 1. 38 - 44.
- Crandall. S.H.. S.S. Lee. James H. Williams Jr.. Accumulated Slip of a Friction-Controlled Mass Excited by Earthquake Motions. Journal of Applied Mechanics. December 1974. 41. 4. 1094 - 1098. 10.1115/1.3423440. 1974JAM....41.1094C.
- Williams. James H. Jr.. R.J. Nagem. Wave Propagation in Large Space Structures. Proceedings of the Fifth AFOSR Forum on Space Structures. August 1987. Monterey, California.
- Nagem. R.J.. James H. Williams Jr.. Dynamic Failure and Arrest in Large Space Structures. Mechanics of Structures and Machines. 1989. 17. 1. 53 - 72. 10.1080/089054508915629.
- Nagem. R.J.. James H. Williams Jr.. Dynamic Analysis of Large Space Structures Using Transfer Matrices and Joint Coupling Matrices. Mechanics of Structures and Machines. 1989. 17. 3. 349 - 371. 10.1080/089054508915646.
- Nagem. R.J.. James H. Williams Jr.. Control of One-Dimensional Distributed Structure Based on Wave Propagation Analysis. Mechanics of Structures and Machines. 1990. 18. 1. 33 - 57. 10.1080/08905459008915658.
- Kuehnle. A.E.. James H. Williams Jr.. Control of Longitudinal Waves in Rod with Voigt Damping, Mechanics of Structures and Machines. Mechanics of Structures and Machines. 1990. 18. 3. 335 - 351.
- Nagem. R.J.. James H. Williams Jr.. Scattering of Nondispersive Waves at Nonlinear Joints in One-Dimensional Structures. Mechanics of Structures and Machines. 1994. 22. 3. 305 - 326. 10.1080/08905459408905215.
- Nagem. R.J.. James H. Williams Jr.. Reflection and Transmission of Random Disturbances at Joints in One-Dimensional Structures. Mechanics of Structures and Machines. 1994. 22. 3. 327 - 342. 10.1080/08905459408905216.
- News: Jones. Yolanda. Newport News Native Studies Stress Sounds. Daily Press. 2 September 1980. 10.
- Silly Season at M.I.T.. Science Digest. July 1974. 72 - 76.
- Prof. Williams Spins His Wheels and Comes Up with a Colossal, Working Yo-yo. People. 26 January 1976. 5. 3. 39.
- Abrahms. Sally. Sheila Eby. The Men of Boston. Playboy Fashion. Fall–Winter 1982. 3. 2. 85.
- Shurkin. Joel. Science and Casual. L'Uomo Vogue. June 1983. 72 - 137.
- News: Hatfield. Julie. Fashionable 'Men of Boston' hop to Playboy's photo call. Boston Globe. 29 April 1982. 45.
- News: Natty Prof. Williams may be one of Playboy's 'Men of Boston. MIT Tech Talk. 26. 35. 3.
- Williams. James H. Jr.. Ask Marilyn [letter quotation]. Parade. 10 May 1992. 6.
- Sternberg. J.. Parade Slowly Marches Into the Digital Era. Digiday. 14 November 2013.
- News: Johnson, Schroeder, Williams are Appointed as First Edgerton Assistant Professors. MIT Tech Talk. 9 January 1974.
- Williams. James H. Jr.. Development and Evaluation of Mechanized Equipment for Installation of the Recessed Reflective Marker Delineation System. U.S. Department of Transportation, Office of Research and Development (Technical Report). June 1978.
- Williams. James H. Jr.. Seismic Analysis of Bus and Support Systems. British Columbia Hydro-Mica Dam Project. December 1975.
- Williams. James H. Jr.. Design, Materials and Mechanical Characterization of Overbraided Composite Rocket Motors. Naval Ordnance Station (Indian Head, Maryland). April 1990.
- Williams. James H. Jr.. Prediction of Remaining Useful Life of Aircraft Components Using Nondestructive Inspection Data. AFRL/MLLP Final Report (Wright Patterson AFB). July 1999. OH 45433-7817.
- Williams. James H. Jr.. Stress and Dynamic Calculations for Rotary Disk Shutters. Report to AVCO-Everett. July 1972.
- Williams. James H. Jr.. Stresses of Implants. Report to Hip and Implant Surgery Unit, Massachusetts General Hospital. March 1975.
- Williams. James H. Jr. . S.S. Lee . E.R. Lang. Effects of Ultrasonic Irradiation on the Enhancement of Composite Processing. Report to GM Manufacturing and Development. September 1984.
- Williams. James H. Jr.. Material and Nondestructive Evaluation Characterizations of Fiber Reinforced Polymeric Composites for Deepwater Mooring Systems. Report to Conoco, Inc.. December 1984.
- Williams. James H. Jr.. S.S. Lee. Proceedings of the Offshore Mechanics and Arctic Engineering Conference (Dallas, Texas). February 1985.
- Williams. James H. Jr. . M.M. Salama . R.M. Vennett . S.S. Lee. Materials for Lightweight Mooring System for Deepwater Compliant Structures. Proceedings of the Offshore Mechanics and Arctic Engineering Conference (Dallas, Texas). February 1985.
- Williams. James H. Jr.. S.S. Lee. Nondestructive Evaluation of Automotive Composite Leaf Spring. WEA (Cambridge, Massachusetts). 1981.
- Williams. James H. Jr.. Dilemmas, Colonialism, and Protest. MIT Faculty Newsletter. March 1991. III. 5. 9.
- News: Flint. Anthony. Black professor to protest at MIT by fasting. https://archive.today/20131207043400/http://www.highbeam.com/doc/1P2-7654004.html. dead. 7 December 2013. Boston Globe. 3 April 1991. 19.
- News: Negri. Gloria. MIT professor protests shortage of black faculty. https://web.archive.org/web/20160301043924/https://www.highbeam.com/doc/1P2-7654160.html. dead. 1 March 2016. Boston Globe. 4 April 1991.
- News: Tenured MIT professor fasting in protest. The Enterprise. 4 April 1991. 48.
- News: Di Iorio. Robert C.. Williams' Protest Draws Wide Press Attention. MIT Tech Talk. 10 April 1991. 1.
- News: Mulvihill. Maggie. Black MIT Professor fasts to protest racism. Portland (Maine) Press Herald. 4 April 1991. AP.
- News: Blum. Debra E.. Black Professor Starts Weekly Fast to Criticize MIT's Minority Efforts. Chronicle of Higher Education. 10 April 1991. A16.
- MIT Prof. Fasts to Protest Minorities' Status There. Jet. 29 April 1991. 23.
- News: Clark. Josh. News Notes: No Food for Thought. Harvard Independent. 11 April 1991. 7.
- News: Uche. Nena. Professor declares victory in protest of MIT climate. Bay State Banner. 25 April 1991. 2.
- News: Lamberti. Andrea. Students gather in show of support for Williams' protest. The Tech. 26 April 1991. 1.
- News: Ball. Charles H.. Program Is Adopted To Add Minority Faculty. MIT Tech Talk. 25 September 1991. 1.
- News: Shim. Katherine. Minority Faculty Sought. The Tech. 27 September 1991. 1.
- Web site: Flight 587.
- News: Williams. James H. Jr.. Guest Column: Crash Should Prompt a Change in Composite Inspection Philosophy. https://web.archive.org/web/20160409161855/https://www.highbeam.com/doc/1G1-89821735.html. dead. 9 April 2016. Air Safety Week. 29 July 2002.
- Rose. David. Pilot Terror. Vanity Fair. September 2002. 505. 212.
- News: Rose. David. What made an Airbus rudder snap in mid-air?. The Observer. 12 March 2005.
- News: Williams. James H. Jr.. Airbus's Fatal Flaws?. ABC News Tonight (TV appearance). 5 August 2002.
- News: Williams. James H. Jr.. Closer inspection of a flight risk. Baltimore Sun. 6 May 2002.
- News: Williams. James H. Jr.. ABC World News Now (TV appearance). 6 August 2002.
- News: Williams. James H. Jr.. Letter: Inspection of Aircraft Parts. https://web.archive.org/web/20160409224824/https://www.highbeam.com/doc/1P2-7731362.html. dead. 9 April 2016. Boston Globe. 3 July 2003.
- Web site: Thomson. Elizabeth A.. Airbus Flaws?. 13 March 2002 . MIT News: Here & There.
- News: Sales. R.J.. Flight risk of Airbus's A300-600 jet needs closer inspection, says prof. MIT Tech Talk. 8 May 2002.
- News: Williams. James H. Jr.. Materials Used May Have Caused Crash—Airbus: Visual Inspection Flaw?. WNBC-TV Evening News (appearance). 7 February 2002.
- News: NTSB Urges Inspections of Certain Airbus A300 Rudders. NTSB Safety Recommendation A-06-27 and A-06-28. 24 March 2006.
- News: Sky Talk: Rigorous Airbus Rudder Checks Now Required. Star-Telegram. 19 December 2007.
- Rose. David. Pilot Terror. Vanity Fair. September 2002. 505. 212.
- News: Rose. David. What made an Airbus rudder snap in mid-air?. The Observer. 12 March 2005.
- News: Sales. R.J.. Flight risk of Airbus's A300-600 jet needs closer inspection, says prof. MIT Tech Talk. 8 May 2002.
- News: NTSB Urges Inspections of Certain Airbus A300 Rudders. NTSB Safety Recommendation A-06-27 and A-06-28. 24 March 2006.