200 likes | 330 Views
Technological discussions in iron and steel, 1871-1885. Outline Iron and steel developments The TAIME journal Hypotheses about the text A few findings. Peter B. Meyer, Research Economist, U.S. Bureau of Labor Statistics * Carol Siri Johnson, New Jersey Institute of Technology, USA
E N D
Technological discussions in iron and steel, 1871-1885 • Outline • Iron and steel developments • The TAIME journal • Hypotheses about the text • A few findings Peter B. Meyer, Research Economist, U.S. Bureau of Labor Statistics* Carol Siri Johnson, New Jersey Institute of Technology, USA SSHA conference, Chicago, Nov. 18, 2007 *Views expressed here do not reflect official policies or measurements of the U.S. Bureau of Labor Statistics.
Our questions We analyze the text of an American engineering journal (TAIME, 1871-1885), looking for: • Diverse expectations of the future: social “uncertainty” • Evidence that a technological “paradigm” for the business and technology of mass production steel is being established
Transition to mass production From craft: toward industrial machines:
With the Bessemer converter, steel-making became less craft-like, more industrial More chemical knowledge would be necessary
Transactions of the American Institute of Mining Engineers (TAIME) We have scanned this professional engineering journal from 1871-1885 where iron and steel making was discussed Authors include professors, employees in iron industry, consultants, and others 712 articles so far 135 have the word “Bessemer”
Scans of the journal A nonprofit contractor, Digital Divide Data • Photocopied and scanned the journals to make image files • Ran optical character recognition (OCR) software on the images to make PDF files • Ran spell checks to reduce errors Most of this computer work was done in Cambodia. The PDF files are at http://techterms.net/ironwork/TAIME/ Quality varies, and some sections are missing. The resulting files can be: • searched for particular words • copy-and-pasted from • patched to make corrections
Data: article length, word counts We have counted particular words in articles. We can imperfectly but systematically compare iron and steel articles to other articles.
Thomas Kuhn’s hypothesis(from Structure of Scientific Revolutions) • An established scientific paradigm has a precise vocabulary • for its methods, measurements, tools, and natural laws • agreed-on by the relevant practitioners • shared with prospective group members by standardized, formal education • As a new paradigm develops, communication involves: • inventing and exploring alternative definitions • wordy translation between reader and writer concepts • (“The price is often sentences of great length and complexity.” Kuhn, p. 203) • Claim: “early”, pre-paradigm scientific articles are long; later ones assume more, are short, and use specialized vocabulary.
Stretching Kuhn’s hypothesis to industrial technology (from science) A technological paradigm might have the same property (a working hypothesis) For example, the Big Steel “paradigm” involves • High volume, speedy, mass production • Big equipment; capital-intensive production; • Big plants; large staff employers • Chemistry and physics relevant • Centralized geographically • Contents of inputs and outputs more precisely understood • Mechanical, chemical, and industrial engineering have roles Do steel articles shrink over time? No strong evidence. • We find that TAIME articles on average got a little longer over time • Articles with steel words grew longer, but a little less so.
Related hypothesis: education of technologist becomes more formal, standardized (paradigmatic). Trends: A decreasing fraction of articles in TAIME were by people with advanced degrees. This is especially true of the Bessemer articles. Possible interpretation: This technological paradigm draws from science and is taken over by industrial engineers (unlike the airplane’s invention which was led by tinkerers not academics.) (Or: scientists increasingly publish elsewhere.)
Kuhn idea, cont’d: We do see discussion of definitions 1875: 1880:
Paradigm shift to chemistry In an 1872 letter, a general manager of an important iron-works wrote: “The president of our company thinks we ought to follow the fashion and have a chemist. To my mind it is a waste of money. When I want an analysis I can have it made—and that is very seldom; for the furnace-manager who needs a chemist to tell him the quality of ore or limestone, or whether his pig-iron is soft or hard, had better resign and go to farming. However, if the president says chemist, chemist it is. “My object in writing is to know if you can recommend a young man competent to fit up a laboratory and take charge of it. We have very little society here, and it is desirable that he should be a gentleman. My wife plays the piano and I do a little on the flute; and if we can get a chemist who plays the violin, we could have some music evenings. If you can suggest a man who combines these qualifications, I could employ him. I do not know what a chemist would expect; but I should not care to pay more than $10 a week.” This predisposition was getting wiped out. By 1884 an iron manager would have to know the wage and capabilities of chemist. Source: Bayles, 1884
Other formative discussions in TAIME • Discussion about relevant new inventions • When and whether patenting is appropriate • What makes a good rail • Whether chemical information is enough to know whether a rail is good • Educational institutions for iron workforce
Uncertainty hypothesis: count “uncertainty” Hypothesis: development of technology occurs in an environment of technological uncertainty, meaning its future is unknown and to some extent all the people are guessing. • Count the fraction of words in each article made up of iron-related phrases: (“hot blast”, “Bessemer”, “puddling”, “open hearth”, “Siemens”, “Martin”, “spiegel”) • Count fraction of words containing "uncert" • These counts across the 712 articles have a tiny positive correlation: .0071. So articles with iron-related terms are slightly more likely to use literal “uncertainty” than other TAIME articles were.
Also steel articles are more likely to have “question” and “whether”
Early tentative conclusions • Steel articles use “experiment” and “test” more than others • “Uncertainty”, “question”, “whether” are a bit more common in steel articles than others • Some statistical evidence for a Kuhnian or uncertainty story • Maybe the big paradigm/uncertainty transition is before 1871 • Articles were increasingly authored by people without advanced degrees, especially Bessemer steel articles. • We are trying to count whether the authors were academics, employee engineers, or consultants • The text data and databases can improve and we plan to extend them past 1885 • Would welcome advice and comment
Advancing productive processes in layers Production of information technology goods, in recent decades Iron and steel, 1871-1884 Earlier, more basic, "upstream" levels Later, “downstream" levels In both cases there were feedback processes by which downstream advances affected earlier stages of production