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Gloves

Description: Glove of pale blue-gray cotton with green undertone. Hands have seams on outside; running stitch of same color; wrists widen and dip in V shape on thumb side; pinkie finger side of wrist features a large scalloped edge. Label sewn in right glove: "Gloves / Designed by / Lilly Dache", with "7" in a circle indicating size.
Date: 1943/1949
Creator: Daché, Lilly
Partner: UNT College of Visual Arts + Design

Gloves

Description: Gloves of light off white kid leather with brown piping. Hands have 3 darts outlined with brown thread on top; wrist portion extends almost to elbow; triangular inserts of same leather with tiny circles punched out lays over brown leather create full trumpet shaped wrist opening; vent at bottom wrist near hand with 2 pearl button closures. Stamped inside of left glove: "Made in Saxony"; "9468"; "V T ES / 1445"; "ARIS" (logo within arch); "US PAT / AUG 22 '27" Stamped inside of right glove: "6"; "US PAT / SEPT 19'22"' "3126 / 8"; "9468"
Date: 1927/1939
Creator: Aris Glove Company
Partner: UNT College of Visual Arts + Design

Gloves

Description: Pair of gloves of white cotton. The plain, daytime gloves are wrist-length. Retailer's label sewn inside: "Made in Western Germany / expressly for / Neiman-Marcus / 100% Cotton"
Date: 1950~
Partner: UNT College of Visual Arts + Design

Gloves

Description: Pair of gloves of white cotton. The daytime gloves are wrist length, with 3 tucks at top along back of hand, and a 1/2" fold-over band at wrist hem.
Date: 1950~
Partner: UNT College of Visual Arts + Design

Gloves

Description: Pair of gloves of tan suede. The wrist-length gloves are plain, with hand-stitching. Size/Designer Label stamped inside: "7 / Made in France / by / Roger Fare" Retailer Label: "Neiman-Marcus / Made in France"
Date: 1955~
Creator: Fare, Roger
Partner: UNT College of Visual Arts + Design

Gloves

Description: Evening gloves of midnight blue satin. Dark blue jersey knit at palms and fingers. 6cm slit on back of glove (ending at wrist). Two piece arms of gloves cross to form bow-like feature on back. Elbow length. Designer Label: Lucienne Harang / M / New York
Date: 1955
Creator: Harang, Lucienne
Partner: UNT College of Visual Arts + Design

Gloves

Description: Pair of gloves in off-white cotton. Pull-on; wrist length with scalloped ends. Scalloped, curved line down center with 3 French knots in center of each curve. Scalloped edges trimmed with topstitching.
Date: 1955
Partner: UNT College of Visual Arts + Design

PLUTONIUM FINISHING PLANT (PFP) GENERALIZED GEOMETRY HOLDUP CALCULATIONS & TOTAL MEASUREMENT UNCERTAINTY

Description: A collimated portable gamma-ray detector will be used to quantify the plutonium content of items that can be approximated as a point, line, or area geometry with respect to the detector. These items can include ducts, piping, glove boxes, isolated equipment inside of gloveboxes, and HEPA filters. The Generalized Geometry Holdup (GGH) model is used for the reduction of counting data. This document specifies the calculations to reduce counting data into contained plutonium and the associated total measurement uncertainty.
Date: February 1, 2005
Creator: BD, KEELE
Partner: UNT Libraries Government Documents Department

Light transmission and air used for inspection of glovebox gloves.

Description: Various materials used for manufacturing the glovebox gloves are translucent material such as hypalon, rubbers, and neoprene. This means that visible light can be transmitted through the inside of the material. Performing this test can help to increase visualization of the integrity of the glove. Certain flaws such as pockmarks, foreign material, pinholes, and scratches could be detected with increased accuracy. An analysis was conducted of the glovebox gloves obscure polymer material using a inspection light table. The fixture is equipped with a central light supply and small air pump to inflate the glove and test for leak and stability. A glove is affixed to the fixture for 360-degree inspection. Certain inspection processes can be performed: (1) Inspection for pockmarks and thin areas within the gloves; (2) Observation of foreign material within the polymer matrix; and (3) Measurements could be taken for gloves thickness using light measurements. This process could help reduce eyestrain when examining gloves and making a judgment call on the size of material thickness in some critical areas. Critical areas are fingertips and crotch of fingers.
Date: January 1, 2002
Creator: Castro, J. M. (Julio M.); Steckle, W. P. (Warren P.), Jr. & Macdonald, J. M. (John M.)
Partner: UNT Libraries Government Documents Department

DYNAMIC MECHANICAL ANALYSIS CHARACTERIZATION OF GLOVEBOX GLOVES

Description: As part of the characterization of various glovebox glove material from four vendors, the permeability of gas through each type as a function of temperature was determined and a discontinuity in the permeability with temperature was revealed. A series of tests to determine the viscoelastic properties of the glove materials as a function of temperature using Dynamic Mechanical Analysis (DMA) was initiated. The glass transition temperature and the elastic and viscoelastic properties as a function of temperature up to maximum use temperature were determined for each glove material. The glass transition temperatures of the gloves were -60 C for butyl, -30 C for polyurethane, -16 C Hypalon{reg_sign}, - 16 C for Viton{reg_sign}, and -24 C for polyurethane-Hypalon{reg_sign}. The glass transition was too complex for the butyl-Hypalon{reg_sign} and butyl-Viton{reg_sign} composite gloves to be characterized by a single glass transition temperature. All of the glass transition temperatures exceed the vendor projected use temperatures.
Date: February 29, 2012
Creator: Korinko, P.
Partner: UNT Libraries Government Documents Department

Gloves

Description: Pair of ladies' gloves. The "hands" are of pale brown with white fabric, possibly a silk/cotton blend. Seamed on inside, they have 3 darts on back of each hand done with dark brown stitching. At wrist on each side is a v-shaped extension which joins to the "cuff", which is of light brown cotton with yellow tones. The scalloped edges of the "cuff" and semi-circular sections on the back of each are piped in dark brown fabric. The "cuffs" are styled as a wrap dress, with an overlap at back of wrist. The overlap has a single cylindrical button of black plastic designed to appear carved with three notches in the side revealing pale green/yellow below and at ends. Manufacturer's tag inside gloves: "Kayser, 52 * Reg / Made in Germany / 6"; Stamped in lining by tag: "Kayser 52". The gloves are accompanied by the original paper care tag: "WASH / GLOVES / ON HANDS / Use almost cool / water and a pure / mild soap. We re- / commend PALM- / OLIVE BEADS. Do / not rub. After wash- / ing take gloves off / rinse thoroughly in / cold water. Pull / lengthwise wrap / and squeeze in / towel. Then stretch / into shape and / leave to dry / KAYSER / The Name on every pair / Made in Germany / Trade Marks / Rege Krussig."
Date: 1930/1939
Creator: Julius Kayser & Co.
Partner: UNT College of Visual Arts + Design

Gloves

Description: Pair of gloves. Ivory kid leather gloves with brown and gray embroidery. Hands have inside seaming; 3 darts on top; darts highlighted by rows of gray chain-stitching with ivory dots woven in; wrists have sewn on cuffs; cuffs feature strip of pale off white leather; embellished with geometric and circle embroidery in brown thread; snap under wrist creates keyhole underneath as well. Stamped inside in purple ink: "Made in Belgium / Real Kid".
Date: 1922/1923
Partner: UNT College of Visual Arts + Design

Gloves

Description: Pair of gloves of ivory colored leather. On back of each glove is a stitched swirl design of 5 ribs. The gloves widen to end with piped hems, and extend to about mid-forearm. Appears to be a youth size. Stamped inside gloves: A) "ARIS" logo in hemisphere; "U.S. Pat. / Aug. 22'22"; and with various stamped numbers inside the glove for sewing and matching pieces. B) "5 3/4"; "U.S. Pat. / Sept 19'22 / Made in Germany"; and with various stamped numbers inside the glove for sewing and matching pieces.
Date: 1922
Creator: Aris
Partner: UNT College of Visual Arts + Design

Gloves

Description: Pair of gloves of kid skin leather; off-white; just below wrist length; single snap fastenings at wrist. On back of each glove, running length-wise down hand are three embroidered bands, pink and blue chevrons in diamond formation on dark blue bands. Cuffs from wrist to end are lined with black silk heavily embroidered with floral motifs in blue, pinks, reds, whites, greens, etc. in chain-stitch. Remainder of glove is unlined. Stamped inside glove: "Modèle déposé [Fr-En: Registered Design] / Paris" and "6" and part of other marks. Metal parts of the snaps have what appear to be Chinese/Japanese characters stamped into them.
Date: 1920/1929
Partner: UNT College of Visual Arts + Design

Mitts

Description: Pair of ivory cotton or silk mitts. The elbow-length fingerless gloves are of crocheted ivory material in the style of the 1860's. The long sleeves have bands of lacework patterning. The hands are fingerless, with cording between where fingers would go, and an oval opening for the thumb.
Date: 186u
Partner: UNT College of Visual Arts + Design

Mitts

Description: Pair of off-white nylon mitts. The elbow-length fingerless gloves have a loop for the thumb, and are embellished along the finger opening with a trim of openwork daisy heads. Stamped: "Nylasuede / by Hansen / 6 1/2"
Date: 1965~
Creator: Hansen Glove Corporation
Partner: UNT College of Visual Arts + Design

Effect on Transonic and Supersonic Drag of Fuselage Gloves Designed to Give a Smooth Overall Area Distribution to a Swept-Wing--Body Combination

Description: "A free-flight investigation into the effect of fuselage gloves, or load increases in volume, designed to improve the overall longitudinal area distribution of a swept-wing-body combination revealed that a reduction of about 20 percent in maximum pressure drag was obtained. The drag reduction effected by the use of gloves decreased with increasing Mach number, becoming zero at a Mach number of about 1.35, the limit of the experiments" (p. 1).
Date: November 26, 1954
Creator: Hall, James Rudyard
Partner: UNT Libraries Government Documents Department

Rh(I)-Catalyzed Arylation of Heterocycles via C-H Bond Activation: Expanded Scope Through Mechanistic Insight

Description: A practical, functional group tolerant method for the Rh-catalyzed direct arylation of a variety of pharmaceutically important azoles with aryl bromides is described. Many of the successful azole and aryl bromide coupling partners are not compatible with methods for the direct arylation of heterocycles using Pd(0) or Cu(I) catalysts. The readily prepared, low molecular weight ligand, Z-1-tert-butyl-2,3,6,7-tetrahydrophosphepine, which coordinates to Rh in a bidentate P-olefin fashion to provide a highly active yet thermally stable arylation catalyst, is essential to the success of this method. By using the tetrafluoroborate salt of the corresponding phosphonium, the reactions can be assembled outside of a glove box without purification of reagents or solvent. The reactions are also conducted in THF or dioxane, which greatly simplifies product isolation relative to most other methods for direct arylation of azoles employing high-boiling amide solvents. The reactions are performed with heating in a microwave reactor to obtain excellent product yields in two hours.
Date: July 18, 2007
Creator: Lewis, Jared; Berman, Ashley; Bergman, Robert & Ellman, Jonathan
Partner: UNT Libraries Government Documents Department

EVALUATION OF GLOVEBOX GLOVES FOR EFFECTIVE PERMEATION CONTROL

Description: A research and development task was undertaken to determine the permeabilities of hydrogen and dry air through different polymeric glove materials that are used to maintain the integrity of glovebox secondary containment. Fifteen different glove samples were obtained from four different manufacturers and samples cut from these gloves were tested. The gloves included baseline butyl rubber, Viton{reg_sign}, Dupont{reg_sign} Hypalon{reg_sign}, polyurethane, as well as composite gloves. The testing indicated that all of the vendor's butyl rubber gloves and the Jung Viton{reg_sign} gloves performed comparably in both gases.
Date: February 29, 2012
Creator: Korinko, P.
Partner: UNT Libraries Government Documents Department

PUNCTURE TEST CHARACTERIZATION OF GLOVEBOX GLOVES

Description: An experiment was conducted to determine the puncture resistance of 15 gloves that are used or proposed for use in the Tritium Facility at Savannah River Site (SRS). These data will serve as a baseline for characterization and may be incorporated into the glove procurement specification. The testing was conducted in agreement with ASTM D120 and all of the gloves met or exceeded the minimum requirements. Butyl gloves exhibited puncture resistance nearly 2.5 times the minimum requirements at SRS while Polyurethane was nearly 7.5x the minimum.
Date: February 29, 2012
Creator: Korinko, P. & Chapman, G.
Partner: UNT Libraries Government Documents Department