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Exxon Mobil Chemical Company

European Photochemistry Association (EPA), 264 European Solvents hidustry Group (ESIG), See European Chemical Industry Council (CEFIC), 257 EVIK , ametryn, 67 Exaxol Chemical Corporation, 227 EXCEDRIN , asphm, 67 Excel hidustries Ltd., 171 EXOLIT , ammonium phosphates, 67 Expro Chemical Products hic., 148 EXTRAZINE , cyanazm, 67 Exxon Mobil Chemical Company, 227, 228 Exxon Mobil Coal Minerals Company, 227, 228 Exxon Mobil Corporation, 228... [Pg.332]

Reactive impact modifiers are preferred for toughening of PET since these form a stable dispersed phase by grafting to the PET matrix. Non-reactive elastomers can be dispersed into PET by intensive compounding but may coalesce downstream in the compounder. Reactive impact modifiers have functionalized end groups. Functionalization serves two purposes - first, to bond the impact modifier to the polymer matrix, and secondly to modify the interfacial energy between the polymer matrix and the impact modifier for enhanced dispersion. Some examples of commercially available reactive impact modifiers for PET are shown in Table 14.3. An example of a non-reactive elastomer that can be used in combination with reactive impact modifiers is ethylene methyl acrylate (EMA), such as the Optema EMA range of ethylene methyl acrylates manufactured by the Exxon-Mobil Chemical Company (see Section 4.2). [Pg.507]

A. Lustiger, et al., U.S. Patent 7,022,770, issued April 4, 2006, and assigned to Exxon Mobil Chemical Company, Houston, Texas. [Pg.360]

The CCPS RASC was chaired by Dennis C. Hendershot (Rohm 8i Haas Company), and committee members included Daniel A. Crowl (Michigan Technological University), Scott W. Ostrowski (Exxon Mobil Chemical), Randy Ereeman (Solutia, and subsequently, EQE), William Lutz (Union Carbide), Chuck Eryman (EMC Corporation), Della Wong (NOVA Chemicals), Walter Silowka (Air Products and Chemicals, Inc.), William Tilton (DuPont), Arthur Woltman (Shell), and Thomas Gibson (CCPS). [Pg.87]

Parent Companies Orica (Australia) and Exxon Mobil Chemical (US)... [Pg.142]

In early 1980, Union Carbide expanded its manufacturing facilities in Seadrift, Texas, to manufacture the new grades of polyethylene summarized in Table 2.1. In addition, Exxon Chemical Company and Mobil Chemical Company were early licensees of the Union Carbide UNIPOL process in order to construct polyethylene manufacturing complexes in Saudi Arabia (Jubail, Saudi Arabia, was an Exxon site and Yanbu, Saudi Arabia, was a Mobil site), which came on stream in the early 1980s. In addition, Exxon also expanded its polyethylene manufacturing facilities in Baytown, Texas, while Mobil expanded its polyethylene manufacturing complex in Beaumont, Texas. Most of the polyethylene manufactured in Saudi Arabia was used to service European markets. [Pg.69]

U.S. producers of benzene from petroleum and their approximate production capacities are shown in Table 5. These figures are inexact because the size of the market and instabiUty of benzene prices causes frequent changes in capacity. Dow Chemical, with total armual benzene capacity of 8.3 x 10 t (250 million gallons) is the largest producer in the United States. Other companies with total domestic capacity of over 3.3 x 10 t (100 million gallons) per year are Amoco Corp., Lyondell, British Petroleum America, Chevron, Exxon Chemical, Occidental Petroleum, Shell Oil, and Mobil. These companies account for approximately 60% of total U.S. benzene capacity (65). [Pg.43]

Alberta Research Council, 327 American Cyanamid Company, 102 Amoco Production Company, 560 Baker Performance Chemicals, 577 Chung Yuan Christian University, 596 Dowell Schlumberger, 608,637 Exxon Chemical Company (ECTD), 366 Halliburton Services, 55,660 Heriot-Watt University, 520 ICI Chemicals and Polymers Ltd., 520 IMOD Processes Ltd., 520 Institut Charles Sadron, CRM-EAHP, CNRS-ULP, 111,124 Institut Fran9ais du Pdtrole, 224,276,410 Mayco Wellchem, 622 Mobile Research and Development Corporation, 137... [Pg.679]

The consolidation of the oil industry, which started at the end of 1998 with the merger of BP-Amoco and was followed in 1999 by BP-Amoco s acquisition of ARCO and then by the still larger Exxon-Mobil merger, can only further dilute the part of petrochemicals in the product mix of these new entities. The announced takeover of Texaco by Chevron will have the same effect. The chemicals of Chevron and Phillips Petroleum have already been combined under a new entity, Chevron Phillips Chemical Company. Oil companies everywhere have followed a similar trend. [Pg.56]

Tohcello Co., Ltd. MITSUI CHEMICALS INC Tokyo Kutsushita Co Ltd CHORI COMPANY LTD TonenGeneral EXXON MOBIL CORPORATION (EXXONMOBIL)... [Pg.559]

Center for Applied Energy Research, 328 Cornell University, 328 E. I. du Pont de Nemours and Company, 55 Engelhard Corporation, 120 Exxon Chemical Company, 384 Exxon Research and Engineering Company, 303354 W. R. Grace and Company, 24 Katalistiks International, 17,46 Lawrence Berkeley Laboratory, 183365 Lehigh University, 12 Mobil Research and Development Corporation, 279... [Pg.440]

There are about 10 manufacturers of LDPE in North America. The top six include Equistar Chemicals, LP, The Dow Chemical Co., Exxon Mobil Corp., Chevron Phillips Chemical Co., DnPont, and Westlake Polymer Corp. Each company has their own trade names and specific grade slates for various applications. Data sheets and MSDSs are available from each snppUer and many have them available on their web sites. A typical product data sheet will cover resin characteristics snch as melt index and density, as well as typical final product properties, such as film tear and tensile and impact strength. The tests will identify the ASTM test methods and the data sheet will nsnally have the conditions imder which the test samples were made. There will also be an indication of the FDA and food contact statns of the resin and the applications for which the resin is suited. [Pg.2888]

ExxonMobil Chemical Company a division of Exxon Mobil Corporation Baytown, Texas... [Pg.690]

A simplified schematic of the gas-phase process is shown in Figure 5.22. This reactor is in operation worldwide and is now the Univation UNIPOL process, which is a joint venture of ExxonMobil Chemical Company and Dow Chemical Company. Exxon acquired the Mobil assets in late 1999, while Dow acquired the Union Carbide assets in 2000. [Pg.284]

UNIPOL process and formed a joint partnership under the name Univation Technologies LLC in 1997. In 1999, Exxon and Mobil merged. Finally, in 2001, Dow Chemical merged with Union Carbide so that the UNIPOL process evolved from the technical combination of four companies. As of 2010, Univation is considered a joint venture of Dow and ExxonMobil Chemical Companies. [Pg.292]

The lithium-ion battery separator market is dominated by three companies Asahi Kasei Corporation, Celgard (Polypore), and Tonen Chemical Nasu (Exxon-Mobil). [Pg.695]

By 1960, Dow, Monsanto, and Union Carbide had also joined the billion dollar club , and chemical companies among the top 100 in that year included W. R. Grace and Co. and National Distillers Chemical Corporation, two conglomerates which had only recently entered the chemical industry. In 1975, the chemical industry ranked third, accounting for 9.3% (40.8 billion dollars) of the assets of the top 100. Du Pont, Dow, and Union Carbide were the largest corporations in the chemical industry, and all placed within the top 20 industrials. But even with more than five billion dollars in assets each, they were still a fraction of the size of Exxon, General Motors, Texaco, IBM, or Mobil - the top five corporations in 1975. The petroleum industry was still the front-runner in that year, with 35.5% (more than 156 billion dollars) of the assets of the top 100. [Pg.92]

The six oil firms were Exxon, Shell, Occidental, Standard of Indiana, Gulf, and Mobil, whose combined chemical sales totaled more than 9.38 billion dollars. Du Pont, the leading chemical company, reported 6.4 billion dollars in chemical sales (IB, Kiefer, 1977, 41). The slowdown of growth in the chemical industry during the 1950s is discussed in III, Semple, 1963, and III, Soule, 1963. [Pg.104]

One of the big things we are seeing is the change in the workplace in big chemistry. If you went to work in chemistry in the past, you went to a place such as Dow, DuPont, Phillips, Mobil, or Exxon. Wait a second. I just gave you a whole bunch of names of companies that either aren t there anymore or have merged with other companies. But now you can open any journal and see 50 small pharmaceutical start-ups, especially chemical start-ups, little companies. So, it is big chemistry versus small chemistry. What s happening there Is that changing our workplace dynamics ... [Pg.56]


See other pages where Exxon Mobil Chemical Company is mentioned: [Pg.227]    [Pg.228]    [Pg.227]    [Pg.228]    [Pg.507]    [Pg.227]    [Pg.228]    [Pg.2943]    [Pg.227]    [Pg.228]    [Pg.227]    [Pg.228]    [Pg.507]    [Pg.227]    [Pg.228]    [Pg.2943]    [Pg.230]    [Pg.184]    [Pg.284]    [Pg.51]    [Pg.301]    [Pg.236]    [Pg.259]    [Pg.66]    [Pg.265]    [Pg.316]    [Pg.28]    [Pg.215]    [Pg.40]    [Pg.52]    [Pg.2840]    [Pg.23]   
See also in sourсe #XX -- [ Pg.227 , Pg.228 ]

See also in sourсe #XX -- [ Pg.227 , Pg.228 ]




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