Pyrex
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Pyrex (trademarked as PYREX and pyrex) is a brand of glassware by Corning Inc. best known for the rectangular roasters with which its name has become nearly synonymous. 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 Inc expanded the brand to include kitchen products made of soda–lime glass and other materials.<ref>Template:Cite web</ref>
In 1998, the kitchenware division of Corning Inc. responsible for the development of Pyrex spun off from its parent company as Corning Consumer Products Company, subsequently renamed Corelle Brands. Corning Inc. no longer manufactures or markets consumer products, only industrial ones.
History
Borosilicate glass was first made by German chemist and glass technologist Otto Schott, founder of Schott AG in 1893, 22 years before Corning produced the Pyrex brand. Schott AG sells the product under the name "Duran".
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. 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.<ref name="IDSAQuote">Corning Pyrex Bakeware, Carroll M. Gantz, Design Chronicles: Significant Mass-produced Designs of the 20th Century, Schiffer Publications, Ltd. 2005</ref> Pyrex made its public debut in 1915 during World War I, positioned as an American-produced alternative to Duran.
A Corning executive gave the following account of the etymology of the name "Pyrex":
Corning purchased the Macbeth-Evans Glass Company in 1936 and their Charleroi, PA plant was used to produce Pyrex opal ware bowls and bakeware made of tempered soda–lime glass.<ref>Template:Cite web</ref> 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.
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Corning divested itself of the Corning Consumer Products Company (now known as Corelle Brands) in 1998 and production of consumer Pyrex products went with it. Its previous licensing of the name to Newell Cookware Europe remained in effect.<ref name="History">Template:Cite web</ref>
France-based cookware maker Arc International acquired Newell's European business in early 2006<ref name="hoovers">Template:Cite web</ref> to own rights to the brand in Europe, the Middle East and Africa.<ref>Template:Cite book</ref><ref>Template:Cite web</ref> 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.<ref>Template:Cite web</ref>
In 2014, Arc International sold off its Arc International Cookware division which operated the Pyrex business to Aurora Capital for its Resurgence Fund II. The division was renamed the International Cookware group.<ref>Template:Cite press release</ref> London-based private equity firm Kartesia<ref>Template:Cite web</ref> purchased International Cookware in 2020.<ref>Template:Cite web</ref>
In 2021, Pyrex rival Duralex was acquired by International Cookware group for €3.5 million (US$4.2m).<ref>Template:Cite web</ref><ref>Template:Cite web</ref><ref>Template:Cite web</ref>
In March 2019, Corelle Brands, the makers of Pyrex in the United States, merged with Instant Brands, the makers of the Instant Pot.<ref>Template:Cite news</ref> On June 12, 2023, Instant Brands filed for Chapter 11 bankruptcy after high interest rates and waning access to credit hit its cash position and made its debts unsustainable.<ref>Template:Cite web</ref> The company emerged from bankruptcy on February 27, 2024 under the previous Corelle Brands moniker, after having sold off its appliance business ("Instant" branded products).<ref>Template:Cite press release</ref><ref>Template:Cite web</ref>
Trademark
In Europe, Africa, and the Middle East, a variation of the PYREX (all uppercase) trademark is licensed by International Cookware<ref>Template:Cite web</ref> for bakeware that has been made of numerous materials including borosilicate and soda–lime glass, stoneware, metal, plus vitroceramic cookware.<ref>Template:Cite web</ref> The pyrex (all lowercase, introduced in 1975<ref name=":1">Template:Cite web</ref>) trademark is now used for kitchenware sold in the United States, South America, and Asia.<ref>Template:Cite web</ref> In the past, the brand name has also been used for kitchen utensils and bakeware by other companies in regions such as Japan and Australia.
It is a common misconception that the logo style alone indicates the type of glass used to manufacture the bakeware.<ref>Template:Cite web</ref> Additionally, Corning's introduction of soda-lime-glass-based Pyrex in the 1940s predates the introduction of the all lowercase logo by nearly 30 years.<ref name="Aikins" /><ref name=":1" /><ref>Template:Cite web</ref> Nevertheless, all "pyrex" manufactured since 1998 in the United States is soda-lime glass,<ref>Template:Cite web</ref> while all French-made "PYREX" glassware is borosilicate.<ref>Template:Cite web</ref>
Composition
Older clear-glass Pyrex manufactured by Corning, Arc International'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.<ref>Template:Cite web</ref><ref>Template:Cite web</ref>
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.<ref>Template:Cite web</ref> The composition of both Corning 7740 and Schott 8330 is given as 80.6% Template:Chem2, 12.6% Template:Chem2, 4.2% Template:Chem2, 2.2% Template:Chem2, 0.1% Template:Chem2, 0.1% Template:Chem2, 0.05% Template:Chem2, and 0.04% Template:Chem2.
In the late 1930s and 1940s, Corning also introduced new product lines under the Pyrex brand using different types of glass. Opaque tempered soda–lime glass was used to create decorated opal ware bowls and bakeware, and aluminosilicate glass was used for Pyrex Flameware stovetop cookware. The latter product had a bluish tint caused by the addition of alumino-sulfate.<ref>Template:Cite web</ref><ref name="Snopes">Template:Cite web</ref>
Beginning in the 1980s, production of clear Pyrex glass products manufactured in the USA by Corning was also shifted to tempered soda–lime glass, like their popular opal bakeware.<ref name="Aikins">Template:Cite web</ref> This change was justified by stating that soda–lime glass has higher mechanical strength than borosilicateTemplate:Emdashmaking it more resistant to physical damage when dropped, which is believed to be the most common cause of breakage in glass bakeware. The glass is also cheaper to produce and more environmentally friendly. Its thermal shock resistance is lower than borosilicate's, leading to potential breakage from heat stress if used contrary to recommendations. Since the closure of the soda–lime plant in England in 2007, European Pyrex has been made solely from borosilicate.<ref name="History" /><ref name=":0">Template:Cite web</ref><ref>Consumer Reports Breaks A Lot Of Glass Investigating Shattering Pyrex Bakeware Template:Webarchive, The Consumerist</ref>
The differences between Pyrex-branded glass products has also led to controversy regarding safety issuesTemplate:Emdashin 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.<ref>Template:Cite web</ref> They admitted their testing conditions were "contrary to instructions" provided by the manufacturer.<ref name="Snopes" /><ref>Template:Cite web</ref> 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."<ref name=":0" />
Use in telescopes
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 Template:Convert telescope mirror for the California Institute of Technology's Palomar Observatory project.<ref name=glassgiant>Template:Cite web</ref> 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.<ref name = Caltech>Template:Cite web</ref> 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.<ref>Template:Cite web</ref>
See also
Citations
General and cited references
External links
- Template:Official website
- Pyrex Love, a vintage Pyrex reference site