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Pyrex

From Wikipedia, the free encyclopedia
Not to be confused with PUREX.
For the programming language, see Pyrex (programming language). For the rapper, see Pyrex (rapper).
A PYREX 1-quart measuring cup manufactured after 1940, featuring graduations in United States customary units

Pyrex (trademarked as PYREX and pyrex) is a brand of glassware originally developed by Corning Incorporated. Pyrex was first introduced in 1915 as a line of clear, low-thermal-expansion borosilicate glass whose resistance to chemicals, electricity, and heat made it ideal for laboratory glassware and kitchenware. In the 1930s Corning expanded the brand to include kitchen products made of soda–lime glass and other materials.[1]

In 1998, Corning Incorporated spun off its kitchenware division, including Pyrex cookware. Currently, Pyrex dishes are manufactured by Corelle Brands in the United States and International Cookware in Europe. Corning Incorporated continues to manufacture Pyrex scientific glassware.

History

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Corning Glass Works

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A black and white advert for Pyrex entitled "You Really Can't Get Along Without This Pyrex Biscuit Dish".
1915 Pyrex advertisement

Borosilicate glass was first made by German chemist and glass technologist Otto Schott, founder of Schott AG in 1893.

In 1908, Eugene Sullivan, director of research at Corning Glass Works, developed Nonex, a borosilicate low-expansion glass, to reduce breakage in shock-resistant lantern globes and battery jars. Sullivan had learned about Schott's borosilicate glass as a doctoral student in Leipzig, Germany.[2]

A series of Pyrex Erlenmeyer flasks

Jesse Littleton of Corning discovered the cooking potential of borosilicate glass by giving his wife Bessie Littleton a casserole dish made from a cut-down Nonex battery jar. Corning removed the lead from Nonex and developed it as a consumer product.[2] Pyrex made its public debut in 1915 during World War I and was positioned as an American-made alternative to Duran.

The material was initially marketed for pie pans and advertised as "Pie Right" or "Py-Right", but the name was eventually changed to Pyrex to rhyme with Nonex.[3] A Corning executive gave the following account of the etymology of the name "Pyrex":

The word PYREX is probably a purely arbitrary word which was devised in 1915 as a trade-mark for products manufactured and sold by Corning Glass Works. While some people have thought that it was made up from the Greek pyr and the Latin rex, we have always taken the position that no graduate of Harvard would be guilty of such a classical hybrid. Actually, we had a number of prior trade-marks ending in the letters ex. One of the first commercial products to be sold under the new mark was a pie plate, and in the interests of euphonism the letter r was inserted between pie and ex and the whole thing condensed to PYREX.[4]

Corning purchased the Macbeth-Evans Glass Company in 1936 and their Charleroi, Pennsylvania plant was used to produce Pyrex opal ware bowls and bakeware made of tempered soda–lime glass.[5] In 1958 an internal design department was started by John B. Ward. He redesigned the Pyrex ovenware and Flameware. Over the years, designers such as Penny Sparke, Betty Baugh, Smart Design, TEAMS Design, and others have contributed to the design of the line.

Corelle Brands

[edit]

In 1998 Corning Incorporated divested itself of its consumer products division, which was renamed World Kitchen in 2000, and Corelle Brands in 2018.[6][7] Corelle took over production of Pyrex and other Corningware products in the United States.[8]

In 2019 Corelle Brands merged with Instant Brands, the makers of the Instant Pot.[9] The combined company filed for Chapter 11 bankruptcy in 2023 after high interest rates and waning access to credit hit its cash position and made its debts unsustainable.[10] The company emerged from bankruptcy after the appliance portion (Instant Brands) and the housewares portion (Corelle Brands) of the business were separately purchased by private equity firm Centre Lane Partners, one of the largest stockholders in Pyrex rival Anchor Hocking.[11][12]

After the purchase was finalized in early 2024, Centre Lane transferred ownership of Corelle to Anchor Hocking. This arrangement came into public awareness later in the year after Anchor Hocking announced that they planned to close Pyrex's 132-year old factory in Charleroi, Pennsylvania, and relocate production to Anchor Hocking's factory in Lancaster, Ohio.[13] Senators Bob Casey Jr. and John Fetterman each criticized the move and demanded an explanation for how the merger of two major competitors was able to proceed without Federal Trade Commission oversight.[14]

A lawsuit by the State of Pennsylvania against Centre Lane Partners that attempted to halt the factory closure was dismissed by a federal judge.[13] After months of uncertainty and multiple temporary closures, Anchor Hocking permanently closed the Charleroi factory in April 2025.[15]

European history

[edit]

After Corning Incorporated divested itself of its consumer products division in 1998, Newell Cookware Europe retained its license to produce Pyrex in Europe, Africa, and the Middle East.

France-based cookware maker Arc International acquired Newell's European business in early 2006[16] to own rights to the brand in Europe, the Middle East and Africa.[17][18] In 2007, Arc closed the Pyrex soda–lime factory in Sunderland, UK moving all European production to France. The Sunderland factory had first started making Pyrex in 1922.[19]

Arc International sold off its Arc International Cookware division including Pyrex business in 2014, and the division was subsequently renamed the International Cookware group.[20] London-based private equity firm Kartesia[21] purchased International Cookware in 2020.[22]

In 2021, International Cookware acquired Pyrex rival Duralex for €3.5 million (US$4.2m).[23][24][25]

Trademark

[edit]

Pyrex remains a trademark of Corning Incorporated, but is licensed by two dinnerware manufacturers.[26][27]

Pyrex logo as used by Corelle

Corning Incorporated continues to manufacture PYREX (all uppercase) laboratory glassware for international markets.[26] The pyrex (all lowercase, introduced in 1975[28]) trademark is now used for kitchenware sold in the United States, South America, Asia, and Australia.[27]

Pyrex logo as used by International Cookware

In Europe, Africa, and the Middle East, a variation of the PYREX (all uppercase) trademark is licensed by International Cookware.[27][29]

Composition

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Two clear measuring jugs featuring red text. The jug on the right is wider than the jug on the left.
A clear tempered pyrex soda–lime glass measuring jug produced by Instant Brands (left, differentiated by its different logo and bluish tint), and a clear borosilicate glass PYREX measuring jug produced by Corning (right)

Older clear-glass Pyrex manufactured by Corning, International Cookware's Pyrex products, and Pyrex laboratory glassware are made of borosilicate glass. According to the National Institute of Standards and Technology, borosilicate Pyrex is composed of (as percentage of weight): 4.0% boron, 54.0% oxygen, 2.8% sodium, 1.1% aluminium, 37.7% silicon, and 0.3% potassium.[30]

According to glass supplier Pulles and Hannique, borosilicate Pyrex is made of Corning 7740 glass and is equivalent in formulation to Schott Glass 8330 glass sold under the "Duran" brand name.[31] The composition of both Corning 7740 and Schott 8330 is given as 80.6% SiO2, 12.6% B2O3, 4.2% Na2O, 2.2% Al2O3, 0.1% CaO, 0.1% Cl, 0.05% MgO, and 0.04% Fe2O3.

Starting around the 1950s, Corning began making Pyrex out of thermally tempered soda–lime glass, instead of borosilicate glass, due to lower manufacturing costs.[32] Some plants moved to tempered soda–lime formulations, while others continued to produce borosilicate Pyrex.[33] Herb Dann, a designer at Corning from 1961 to the 1990s, noted that by the time the consumer products division was sold in 1998, Corning had mostly switched to soda–lime glass for "almost all" of its tableware products.[33] The exception to this was the 13"×9"×2" pan, which was never produced with soda–lime.[33]

Phil Ross, an independent consultant to the glass industry, whose clients included World Kitchen, said in 2008 that the U.S. industry as a whole switched in the 1980s from borosilicate to soda–lime owing to it being easier to melt and work with, as well as being more environmentally friendly due to lower emissions from the glass furnace used. He noted it was not economical for companies to install multi-million dollar filter systems.[34] This change was justified by stating that soda–lime glass has higher mechanical strength than borosilicate—it has around twice the strength—making it more resistant to physical damage when dropped, which is believed to be the most common cause of breakage in glass bakeware. However, its thermal shock resistance is lower than borosilicate's, leading to potential breakage from heat stress if used contrary to recommendations.[34] Borosilicate's shock resistance is around three times higher than soda–lime.[35]

Calculations of thermal differential, ∆T, for soda lime silicate and borosilicate glass.
Source ∆T Soda lime silicate ∆T Pyrex borosilicate
Bradt and Martens[35] ~55°C (99°F) ~183°C (330°F)
Carter and Norton[36] ~80°C (144°F) ~270°C (436°F)
Corning brochure[37] ~16°C (29°F) ~54°C (97°F)

The differences between Pyrex-branded glass products has also led to controversy regarding safety issues—in 2008, the U.S. Consumer Product Safety Commission reported it had received 66 complaints by users reporting that their Pyrex glassware had shattered over the prior ten years yet concluded that Pyrex glass bakeware does not present a safety concern. The consumer affairs magazine Consumer Reports investigated the issue and released test results, in January 2011, confirming that borosilicate glass bakeware was less susceptible to thermal shock breakage than tempered soda lime bakeware.[38] They admitted their testing conditions were "contrary to instructions" provided by the manufacturer.[39][40] STATS analyzed the data available and found that the most common way that users were injured by glassware was via mechanical breakage, being hit or dropped, and that "the change to soda lime represents a greater net safety benefit."[8][41][34][42]

Distinguishing soda–lime and borosilicate Pyrex

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It is a common misconception that the logo style alone indicates the type of glass used to manufacture the bakeware.[43] In reality, Corning's introduction of soda–lime based Pyrex in the 1940s predates the introduction of the all lowercase logo by around 30 years, which first appeared in 1975.[28][41] Additionally, the transition to soda–lime was not uniform, as some plants continued to produce borosilicate pieces for a period of time, though was generally phased out by 1998.[33] This means any Pyrex manufactured in the U.S. from the 1940s to 1998 could be either borosilicate or soda–lime, regardless of the capitalization of the logo. The Corning Museum of Glass website summarizes: "The short answer is that the change from upper to lower case signified a re-branding of the trademark Pyrex® in the late 1970s but is not a conclusive way to determine, historically, what type of glass formulation the product is made from."[33]

U.S. post–1998

[edit]

From 1998, World Kitchen (Later Corelle Brands, then Anchor Hocking) used the Corning soda–lime formulation at their plant in Charleroi, Pennsylvania.[41] The plant was shut down in April 2025, after 132 years of operation.[44] Production was then shifted to Lancaster, Ohio by new owners Anchor Hocking.[45] Ultimately, production of all U.S. Pyrex since 1998 has been made of soda–lime glass with the lowercase logo.[46]

England

[edit]

In 1921, James A Jobling acquired the licence to produce Pyrex in the UK. The original kiln was replaced with a borosilicate furnace to create the Pyrex.[47] Production started in 1922 at his Sunderland factory in England, and continued for over 50 years. In 1973, the licence expired, and Corning took control of the factory and the Jobling company.[48][49][50] Pyrex produced before Corning took over was stamped with a "JAJ" symbol.[51] Production at the facility took place until 2007 when it was shut down, and production of Pyrex was shifted to France.[52] All Pyrex made at the factory was borosilicate.[47]

France

[edit]

Production in France began in 1922 with the glassblowers Clovis and Léon Régent at the Bagneaux-sur-Loing glassworks. Production continued for several years until the factory was relocated to Châteauroux in 1970 where it continues as of 2026.[53] All Pyrex made at the factory is borosilicate with the uppercase logo.[27][46]

Australia

[edit]

Australian Pyrex is distributed by Corelle Brands, who offer the lowercase soda–lime glass.[54][55] However, they also offer the French-made borosilicate glass.[54][56] Additionally, borosilicate glass with the lowercase logo is offered in the "Bake N Serve" and "Cook N Serve" ranges which are produced in China.[46][57][58]

Visual differences

[edit]

When asked about any visual differences, Corning designer Herb Dann noted in a 2014 interview: "Actually, the tempered [soda-lime] is a little bluer glass, it can alter the color of it. In fact, at one time we actually had a straw color in all of the Pyrex line. Today when you walk into the company store, it's all blue and that's a cheaper glassmelt because they're not purifying, they're not taking the cobalt out. So it's a cheaper melt, but it's all tempered lime."[59] The U.S. Pyrex website notes: "You may notice that some of our Pyrex® brand glassware has a slight tint of green or blue hue to the dish. It is not a coating or added color. It comes from the raw materials in the glass itself. The blue comes from adding cobalt to the raw materials. This does not affect the performance of the dish; it is purely cosmetic."[60]

Use in telescopes

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A black and white photograph of a large, flat mirror with a geometric pattern, supported on a metal frame with several people surrounding it.
Pyrex glass used on the mirror of the Hale Telescope

Because of its low expansion characteristics, borosilicate glass is often the material of choice for reflective optics in astronomy applications.

In 1932, George Ellery Hale approached Corning with the challenge of fabricating the 200-inch (5.1 m) telescope mirror for the California Institute of Technology's Palomar Observatory project.[61] A previous effort to fabricate the optic from fused quartz had failed, with the cast blank having voids. The mirror was cast by Corning during 1934–1936 out of borosilicate glass.[62] After a year of cooling, during which it was almost lost to a flood, the blank was completed in 1935. The first blank now resides in the Corning Museum of Glass.[63]

[edit]
  • A Pyrex plate manufactured in the 1960s
    A Pyrex plate manufactured in the 1960s
  • A vintage Pyrex roaster
    A vintage Pyrex roaster
  • A 1925 Pyrex glass baking dish set for children
    A 1925 Pyrex glass baking dish set for children
  • A white oval dish decorated with stylized orange, red and black flowers with a clear lid.
    Pyrex casserole dish with the 'Toledo' pattern
  • Pyrex exhibit in the Corning Museum of Glass
    Pyrex exhibit in the Corning Museum of Glass

See also

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Citations

[edit]
  1. ^ "A CENTURY OF PYREX". Corning Museum of Glass. November 24, 2014. Archived from the original on December 8, 2023. Retrieved July 29, 2023.
  2. ^ a b Corning Pyrex Bakeware Archived 2017-12-08 at the Wayback Machine, Carroll M. Gantz, Design Chronicles: Significant Mass-produced Designs of the 20th Century, Schiffer Publications, Ltd. 2005
  3. ^ William B., Jensen (May 2006). "The Origin of Pyrex" (PDF). Journal of Chemical Education. 83 (5): 692. doi:10.1021/ed083p692.
  4. ^ Mathews, MM (1957). "title unknown". American Speech. 32 (4): 290.
  5. ^ "Macbeth-Evans Glass Company | ArchivesSpace Public Interface". archivesspace.cmog.org. Retrieved 2022-10-16.
  6. ^ Ek, Derrick. "World Kitchen plans layoffs at Corning plant". The Leader. Corning NY. Archived from the original on 2023-08-15. Retrieved 2021-02-12.
  7. ^ "World Kitchen Changes Name to Corelle Brands". Kitchenware News. February 5, 2018. Archived from the original on 2023-08-15. Retrieved 2021-02-12.
  8. ^ a b "Manufacturing History". Pyrex Products. Archived from the original on 2 October 2011. Retrieved 5 June 2015.
  9. ^ Gottfried, Miriam (March 3, 2019). "Owners of Instant Pot, Corelle to Merge; Combined company would have enterprise value of more than $2 billion". The Wall Street Journal. Archived from the original on June 23, 2023. Retrieved June 23, 2023.
  10. ^ "Instant Pot and Pyrex Maker Instant Brands Files for Bankruptcy". Yahoo Finance. June 12, 2023. Archived from the original on June 13, 2023. Retrieved June 12, 2023.
  11. ^ Brands, Instant. "Instant Brands Provides Update on Sale Process for its Appliance Business". www.prnewswire.com (Press release). Archived from the original on 2024-03-21. Retrieved 2024-03-21.
  12. ^ "Instant Brands emerges from chapter 11 as Corelle Brands | Davis Polk". www.davispolk.com. 2024-03-01. Retrieved 2024-03-21.
  13. ^ a b "Case 2:24-cv-01501-NR" (PDF). govinfo.gov. United States District Court for the Western District of Pennsylvania. November 14, 2024.
  14. ^ Anselmo, Joelle (October 7, 2024). "Pennsylvania glass plant closure sparks outrage". Manufacturing Dive. Informa TechTarget. Archived from the original on August 31, 2025. Retrieved December 4, 2025.
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  23. ^ AFP (2021-01-29). "French glassmaker Duralex purchased by rival". DAWN.COM. Archived from the original on 2021-01-29. Retrieved 2021-01-29.
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  27. ^ a b c d "Difference between Pyrex® USA and Pyrex®Europe". Pyrex® Help Center. 2020-02-17. Archived from the original on 2025-10-13. Retrieved 2026-02-15.
  28. ^ a b "Pyrex 1975 Dealer Catalog. Corning, N.Y: Corning Glass Works". cmog.primo.exlibrisgroup.com. Archived from the original on 2022-11-20. Retrieved 2022-11-20.
  29. ^ "Kartesia participates in the aquisition [sic] of International Cookware, the leading kitchenware manufacturer under the Pyrex® brand in EMEA". www.kartesia.com. Archived from the original on 2023-06-23. Retrieved 2023-06-23.
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  31. ^ "Borosilicate glass". Archived from the original on 15 March 2012. Retrieved 5 June 2015.
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  36. ^ Carter, C.B.; Norton, M.G. (2007). Ceramic Materials, Science and Engineering (1 ed.). Springer. p. 633. ISBN 978-0-387-46271-4.{{cite book}}: CS1 maint: date and year (link)
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  38. ^ Estes, Adam Clark (March 16, 2019). "The Pyrex Glass Controversy That Just Won't Die". Gizmodo. Archived from the original on 2019-03-21. Retrieved 2019-03-22.
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  42. ^ Consumer Reports Breaks A Lot Of Glass Investigating Shattering Pyrex Bakeware Archived 2012-05-14 at the Wayback Machine, The Consumerist
  43. ^ "That Viral 'PYREX' Brand Hack Is Horseshit, Folks". Lifehacker. 2023-02-27. Archived from the original on 2023-08-26. Retrieved 2023-08-26.
  44. ^ 132-Year-Old Pyrex Plant Closes for Good After Four Shutdown Delays. 2025-04-14. Archived from the original on 2025-04-29. Retrieved 2026-02-15 – via www.ien.com.
  45. ^ "As Charleroi's glassmaking tradition ends, an Ohio town gains from its loss". Pittsburgh Post-Gazette. Archived from the original on 2026-01-10. Retrieved 2026-02-15.
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  48. ^ "Pyrex plate in Chelsea Design. | Science Museum Group Collection". collection.sciencemuseumgroup.org.uk. Archived from the original on 2025-08-17. Retrieved 2026-02-15.
  49. ^ "BBC Inside Out -". www.bbc.co.uk. Archived from the original on 2025-04-17. Retrieved 2026-02-15.
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  52. ^ "Glassmaker announces plan to close Wearside factory". The Northern Echo. 2007-01-18. Retrieved 2026-02-15.
  53. ^ "history - Pyrex® Webshop EU". www.pyrex.eu. Archived from the original on 2025-10-16. Retrieved 2026-02-15.
  54. ^ a b "Pyrex Support". Global Kitchen Brands Australia Pty Ltd. Archived from the original on 2025-10-06. Retrieved 2026-02-15.
  55. ^ "Pyrex - Official Australia Online Store - Buy Pyrex Measuring Cups, Small & Large Bowls, Storage, Cookware, & More". Global Kitchen Brands Australia Pty Ltd. Archived from the original on 2025-10-10. Retrieved 2026-02-15.
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  57. ^ "Pyrex® Bake N Serve Rectangle Baker-1.6L". Global Kitchen Brands Australia Pty Ltd. Archived from the original on 2026-02-15. Retrieved 2026-02-15.
  58. ^ "Pyrex® Cook N Serve Casserole 2.1L". Global Kitchen Brands Australia Pty Ltd. Archived from the original on 2026-02-15. Retrieved 2026-02-15.
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General and cited references

[edit]
  • Bradt, R. C.; Martens, R. L. (September 2012). "Shattering Glass Cookware" (PDF). American Ceramic Society Bulletin. 91 (7): 35–41. ISSN 0002-7812. OCLC 302290362. Retrieved 15 March 2024.
    • DeGuire, Ellen (September 11, 2012). "New Paper Addresses Causes of Shattering Glass Cookware; Margin of Safety Described as 'Borderline'" (Press release). American Ceramic Society. Retrieved 2012-09-17. Their investigation confirmed the borosilicate glass would withstand a much larger rapid temperature change. According to their calculation and those of others, soda lime glass cookware shatters more frequently because, in theory, it can only resist fracture stress for temperature differentials less than about 55 °C (99 °F). In contrast, they estimate that the borosilicate glassware could tolerate a temperature differential of about 183 °C (330 °F), a three-fold difference.
  • Gantz, Carroll (2001). Design Chronicles: Significant Mass-produced Products of the 20th Century. Atglen, PA: Schiffer Publishing. ISBN 978-0-7643-2223-5. OCLC 58729534.
  • Rogove, Susan Tobier; Steinhauer, Marcia B. (1993). Pyrex by Corning: A Collector's Guide. Marietta, Ohio: Antique Publications. ISBN 0-915410-94-X. OCLC 28440879.
  • Rogove, Susan Tobier (2016). More Pyrex by Corning: A Collector's Guide. Photography: Jay Kogut Photography. Pennsauken, NJ: BookBaby. ISBN 978-1-4835-8646-5. OCLC 963732418.
[edit]
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