Tape schematic

Polymers containing long alkyl side chains, typically between 16 and 22 carbon atoms in length, have been used extensively as low adhesion backsizes for PSA tape products for many years. The general structure of such polymers is shown schematically in Fig. 8. The alkyl side chains are attached through a bridging group, R, to the polymer backbone, and the backbone may contain comonomers,... 

Figure 3.25 Schematic representation of a magnetic-tape manufacturing process.

FIGURE 6.9 Schematic diagram of the tape-casting process for producing a ceramic green film. 

A schematic TG-curve of the vaporization of gold under isothermal conditions is shown in Fig. 66. The temperature and the rate of vaporization are recorded in usual form and simultaneously punched on a tape by means of a data transfer system (see Fig. 35 and Table 5). 

This work was done in collaboration with Professor Hiroshi Yoneyama of Osaka University [124], The procedure used to prepare the LiMu204 tubules is shown schematically in Fig. 21. A commercially available alumina filtration membrane (Anopore, Whatman) was used as the template. Alumina is especially suited for this application because of its high porosity, monodispersity of pore size, and the fact that it can be heated to high temperature without degradation. This membrane contains 200-nm-diameter pores, is 60 p,m thick, and has a porosity of 0.6. A 1.5 cm X 1.5 cm piece of this membrane was mounted on a Pt plate (2 cm X 2 cm) by applying a strip of plastic adhesive tape (also 2 cm X 2 cm NICHIBAN VT-19) across the upper face of the membrane. The Pt plate will serve as the current collector for the LiMn204 battery electrode material. The strip of tape, which will be subsequently removed, had a 1.0 cm circular hole punched in it, which defined the area of the membrane used for the template synthesis of the LiMn204. 

Figure 6.72 Schematic diagram of a magnetic recording device and magnetization in magnetic tape recording medium. Reprinted, by permission, from P. Ball, Made to Measure, p. 72. Copyright 1997 by Princeton University Press.

Figure 7.31 Schematic diagram of a typical tape-casting process. From Principles of Ceramics Processing, 2nd edition, by J. S. Reed Copyright 1995 by John Wiley Sons, Inc. This material is used by permission of John Wiley Sons, Inc.

Figure 1. Schematic of the apparatus (1) thermal conductivity cell detector, (2) column, (8) flow meter, (4) pressure regulator, (5) drying trap, (6) injection valve, (7) recording device (A) T.C. detector, (B) power supply, (C) recorder, (D) dc micro-voltmeter, (E) FM adaptor, (F) magnetic tape recorder...

Static mixers. Static mixers or motionless mixers are pressure-driven continuous mixing devices through which the melt is pumped, rotated, and divided, leading to effective mixing without the need for movable parts and mixing heads. One of the most commonly used static mixers is the twisted tape static mixer schematically shown in Fig. 3.25. 

A schematic presentation of rolling is shown in Fig. 7.9. Powders are continuously supplied in the bunker and further into the deformation zone in between rolls. Powders are supplied to the deformation zone due to both the gravitational force and friction between rolls and powders. The relative density of the tape (pr) can be calculated from... 

Figure 1.26 Schematic of a cover slip with an array of air pockets sealed to a DNA biochip chamber by adhesive tape, (a) Overview (b) detail with side view of one air pocket [23] (by courtesy of RSC).

Figure 17 Schematic diagram showing the orientation and dimensions of a dimeric P -2 peptide tape when adsorbed at the surface of mica (Whitehouse et al., 2005).

Fig. 3.6 Schematic diagram of the doctor-blade tape-casting process.

Fig. 10. Schematic of OLGA(III) in combination with the tape detection system or the MG or ROMA wheel detection system. See text for a more detailed description.

Figure 4.18. Schematic sketching the experimental procedure used in 3D mesoscale self-assembly. Molding of a polyurethane prepolymer in a PDMS master generated polyhedra. Lubricant was added to the polyhedra in a water-filled Morton flask the use of liquid solder as a lubricant required the covering of selected faces with solder-coated copper tape. Axial rotation of the flask provided the agitation needed to cause collisions between liquid-coated pieces. The schematic depicts the formation and self-...

Fabrication procedure of gold nanodisk electrodes (NEEs) is schematically shown in Fig. 3.14 (Menon and Martin 1995 Pereira et al. 2006). Step I A piece of the Au/Au-PC/Au membrane is first affixed to a piece of adhesive aluminum foil tape (Fig. 3.14a). Step II A rectangular strip of a copper foil, with a conductive adhesive, is then affixed to the upper Au-coated surface of the Au/Au-PC/Au membrane (Fig. 3.14b). This Cu foil tape acts as a current collector and working electrode lead for the NEE. Step III The upper Au surface layer from the portion of the Au/Au-PC/Au membrane not covered by the Cu foil tape is then removed by simply applying and then removing a strip of Scotch tape. Removal of the Au surface layer exposes the disk-shaped ends of the Au nanowires within the pores of the membrane (Fig. 3.14c). These nanodisks will become the active electrode elements. Step IV The NEE assembly is heat treated at 150°C for 15 min. This produces a water-tight seal between the Au nanowires and the pore walls. Finally, strips of strapping tape are applied to the lower and upper surfaces of the assembly to insulate the Al and Cu foil tapes (Fig. 3.14d). 

Figure 1. Schematic diagram of the experimental apparatus (PG, pressure gauge TC, temperature controller HT, heating tape MV, metering valve SV, stop valve CV, check valve RD, rupture disc P, HPLC pump)...

Fig. 22a, b Schematic representations of a linear tapes b crinkled tapes observed in structures based on N,AT-disubstituted melamines and 5,5-diethylbarbituric acid [169]... 

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