Fill face

Bag type Tube dimensions Finished-face dimensions Filled-face dimensions Valve dimensions... 

Meaning of subscripts B = bottom / = finished-face F = filled-face t = tube T = top. 

K2Hg7 has a unique structure [7] characterized by chains of alternating empty and filled face sharing octahedra of Hg atoms [d(Hg-Hg) > 300 pm, Figure 2.4-8(b)]. 

Fig. 21 a The formation of the octahedral cage 24 with alternately filled faces, b The X-ray crystal structure of an empty host molecule... 

Fill face That side of a woven fabric on which the greatest number of yarns is perpendicular to the selvage. 

Figure 3.33. Part of a map showing the most 10 highly stressed slip systems beneath and to the sides of a long punch indenter oriented along [110]. The filled faces on the poly-hedra are the most highly stressed slip systems in the three regions I, II, and III separated by the solid lines. The arrows indicate the direction of slip showing convergence in III, rosette in II, and divergence in I. Dotted lines with numbers are contours of maximum resolved shear stress. After. ...

In this theory, the fundamental notion is the concept of beam introduced similarly to that ft om the geometrical optics. The faces of the discontinuity will reflect all the electromagnetic beams due to the zero conductivity of the air filling the discontinuity The edge of the discontinuity will diffract the incident beam similarly to the Fresnel diffraction in optics. 

Two major sources of ultrasound are employed, namely ultrasonic baths and ultrasonic immersion hom probes [79, 71]- The fonuer consists of fixed-frequency transducers beneath the exterior of the bath unit filled with water in which the electrochemical cell is then fixed. Alternatively, the metal bath is coated and directly employed as electrochemical cell, but m both cases the results strongly depend on the position and design of the set-up. The ultrasonic horn transducer, on the other hand, is a transducer provided with an electrically conducting tip (often Ti6A14V), which is inuuersed in a three-electrode thenuostatted cell to a depth of 1-2 cm directly facing the electrode surface. 

The stacks are moved and again separated into individual panels where they pass a grading station. Those panels requiring touch-up or repair move to the repair stations. Panels then move to the trim saws where edges are trimmed to the final desired size, normally 1220 x 2440 mm (4x8 ft.). Panels are then touch-sanded to final thickness, and pre-finished as desired. Those panels with high quaUty decorative veneer faces are usually filled, stained to the desired tone, and finished with a clear finish. 

In a variant of the horizontal form/fill/seal operation, the material, moving in a horizontal direction, is folded on itself vertically. Vertical sections of the two faces are heat-sealed to each other to form a pouch, which may then be filled. The pouch, usually made from film or paper bonded to aluminum foil plus a plastic laminant and heat sealant, is closed by a heat seal. This type of pouch gives high moisture and oxygen protection and is used for moisture-and flavor-sensitive condiments and beverage mixes. 

Thermoforming includes the extmsion of sheets, thicker than 0.25 mm, followed by forming a reheated sheet in an open-face mold by pressure, vacuum, or both. Sheet of less than 0.25 mm thick is therm oformed in-line, and filled and sealed with contents such as processed meats, cheeses, and pastas. 

The rationale for the development of such fibers is demonstrated by their appHcation in the medical field, notably hemoperfusion, where cartridges loaded with activated charcoal-filled hoUow fiber contact blood. Low molecular weight body wastes diffuse through the fiber walls and are absorbed in the fiber core. In such processes, the blood does not contact the active sorbent direcdy, but faces the nontoxic, blood compatible membrane (see Controlled RELEASE TECHNOLOGY, pharmaceutical). Other uses include waste industrial appHcations as general as chromates and phosphates and as specific as radioactive/nuclear materials. 

Acoustical Louvers. Acoustical louvers are used in building mechanical systems when exterior walls are penetrated for fresh air intake, exhaust, or rehef air, in situations where the impact of HVAC noise is of concern in the surrounding environment. The louvers consist of a series of hoUow sheet metal blades. The bottom faces of the louver blades are perforated and the blades are filled with fibrous sound-absorbing material. Typical acoustical louvers are 20 cm (8 in.) to 30 cm (12 in.) in depth. The amount of insertion loss they provide is limited. 

There are three types of Hquid content in a packed bed (/) in a submerged bed, there is Hquid filling the larger channels, pores, and interstitial spaces (2) in a drained bed, there is Hquid held by capillary action and surface tension at points of particle contact, or near-contact, as weU as a zone saturated with Hquid corresponding to a capillary height in the bed at the Hquid discharge face of the cake and (3) essentially undrainable Hquid exists within the body of each particle or in fine, deep pores without free access to the surface except perhaps by diffusion or compaction. 

The potassium hydroxide electrolyte used in alkaline batteries is a corrosive hazardous chemical. It is a poison and if ingested attacks the throat and stomach linings. Immediate medical attention is required. It slowly attacks skin if not rapidly washed away. Extreme care should be taken to avoid eye contact that can result in severe bums and blindness. Protective clothing and face shields or goggles should be worn when filling cells with water or electrolyte and performing other maintenance on vented batteries. 

---