Luran S 777K
Luran® S 777K is considered as the standard injection molding grade within the Luran S portfolio offering a well-balanced property profile.
- Good flowability
- Easy processing
- New SPF 30 UV stabilization available
- Radiator grills
- Gardening equipment
- Household devices
Luran S 777K BK25991Add to Bookmarks
Luran S 777K BK33753Add to Bookmarks
Luran S 777K BK61066Add to Bookmarks
Luran S 777K BK62131Add to Bookmarks
Luran S 777K GY61225Add to Bookmarks
Luran S 777K UV BK28214Add to Bookmarks
Luran S 777K UV BK61066Add to Bookmarks
Luran S 777K UV BK61099Add to Bookmarks
Luran S 777K UV BK65076Add to Bookmarks
Luran S 777K UV BK65084Add to Bookmarks
Luran S 777K UV BK65124Add to Bookmarks
Luran S 777K UV GY62371Add to Bookmarks
Luran S 777K UV GY69292Add to Bookmarks
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Properties of Luran S 777K
Property, Test Condition Standard Unit Values Rheological Properties Melt Volume Rate 220 °C/10 kg ISO 1133 cm³/10 min 15 Mechanical Properties Izod Notched Impact Strength, 23 °C ISO 180/A kJ/m² 14 Izod Notched Impact Strength, -30 °C ISO 180/A kJ/m² 4 Charpy Notched Impact Strength, 23° C ISO 179 kJ/m² 17 Charpy Notched Impact Strength, -30 °C ISO 179 kJ/m² 4 Tensile Stress at Yield, 23 °C ISO 527 MPa 48 Tensile Strain at Yield, 23 °C ISO 527 % 3.3 Tensile Modulus ISO 527 MPa 2300 Tensile Creep Modulus (1000h) ISO 899 MPa 1400 Tensile Creep Modulus (1h) ISO 899 MPa 1850 Elongation at Break (MD) ISO 527 % 9 Flexural Strength, 23 °C ISO 178 MPa 70 Hardness, Ball Indentation ISO 2039-1 MPa 80 Thermal Properties Vicat Softening Temperature VST/B/50 (50N, 50 °C/h) ISO 306 °C 97 Vicat Softening Temperature, VST/A/50 (10N, 50 °C/h) ISO 306 °C 105 Heat Deflection Temperature A; (annealed 4 h/80 °C; 1.8 MPa) ISO 75 °C 97 Heat Deflection Temperature B; (annealed 4 h/80 °C; 0.45 MPa) ISO 75 °C 101 Coefficient of Linear Thermal Expansion ISO 11359 10^(-6)/°C 80 - 110 Thermal Conductivity DIN 52612-1 W/(m K) 0.17 Electrical Properties Dielectric Constant (100 Hz) IEC 60250 - 3.7 Dissipation Factor (100 Hz) IEC 60250 10^(-4) 110 Dissipation Factor (1 MHz) IEC 60250 10^(-4) 240 Volume Resistivity IEC 60093 Ohm*m 1E12 Surface Resistivity IEC 60093 Ohm 1e+013 Other Properties Density ISO 1183 kg/m³ 1070 Water Absorption, Saturated at 23 °C ISO 62 % 1.65 Moisture Absorption, Equilibrium 23 °C/50% RH ISO 62 % 0.35 Processing Linear Mold Shrinkage ISO 294-4 % 0.5 - 0.9 Melt Temperature Range ISO 294 °C 240 - 280 Mold Temperature Range ISO 294 °C 60 Injection Velocity ISO 294 mm/s 200 Drying Temperature °C 80 Drying Time h 2 - 4
Typical values for uncolored products
Processing of Luran S 777K
Luran® S can be processed by any of the processes suitable for thermoplastics. The most important processes are injection molding and extrusion.
Luran® S granules can absorb small amounts of moisture from the air during storage. Although this does not change the properties of the product, streaks or bubbles can appear during processing, depending on the moisture content. We therefore recommend predrying of Luran® S before processing. The Luran® S grades which have a "C" in their designation (eg. Luran® S KR 2861/1 C) are blends of ASA and polycarbonate. These products should always be predried. The drying temperature should be about 10-20°C lower than the Vicat softening point (VST/B/50). The drying conditions are given in the following Table.
Drying conditions for Luran® S:
Drying temperature (°C)
Drying time (h)
Acceptable moisture content (%)
Luran S - ASA grades
Luran S - ASA/PC grades
*: drying temperature should be 10-20 °C below Vicat softening point VST/B/50.
Use of regrind
Because of its high thermal stability, up to 30% of clean Luran S of a single grade and whose previous processing has not involved contamination may be added to the starting material in the manufacture of moldings where this is appropriate. The usual crushers or granulators can be used for size reduction. Regrind should be well dried.
Luran S molding compounds can be processed on any commercially available injection molding machine. Single-screw injection molding machines are usually used.
A conventional 3-zone general purpose screw fitted with a non-return valve can be used. The screw length should be from 16 to 20 D. The data given in the following Tables are typical values for screw designs which have proven successful. The pitch is constant over the entire length and should be from 0.8 to 1 D.
Typical values for screw configuration:
Length of section
16 -20 D
8 - 10 D
4.8 - 6 D
3.2 - 4 D
Screw diameter (mm)
Flight depth in the feed zone (mm)
Flight depths in the metering zone (mm)
Open nozzles can be used for processing Luran S molding compounds because Luran S melts are relatively viscous. Open nozzles have a very simple design and therefore give particularly good flow.
Shut-off nozzles have advantages when high back pressure is being used or undesirable stringing has to be avoided and thick-walled parts are to be manufactured. Mechanically or hydraulically operated needle valve nozzles have proven the most successful.
Gate and mold design
Any known type of gate may be used, including hot runner systems. The guidelines for the design of gates and molds for the manufacture of injection-molded parts from thermoplastics (VDI 2006) are also applicable to Luran S. Gates and feed channels should not be too small, otherwise excessively high melt temperature and injection pressure are required. This can result in streaks, charring caused by shear, voids or sink marks.
Use of inserts
Metal parts can be molded in without difficulty, but they should be preheated to 80-120°C before being placed in the mold so that no internal stresses are created. The metal parts must be free of grease, and to improve anchoring should have milled, grooved or similar surfaces. Metal edges should be well rounded.
Mold temperature control
A carefully designed temperature control system for the mold is particularly important, since the effective mold surface temperature has a decisive effect on surface quality (gloss, flow lines) and on the weld line strength, distortion, shrinkage and tolerances of moldings. The recommended mold surface temperatures for Luran S grades are given in the following Table. An eventual warpage of the moldings can be counteracted by separate and differentiated temperature control of the two halves of the mold.
Recommended mold surface temperatures for Luran® S:
Processing temperature (°C)
Mold temperature (°C)
Typical shrinkage (%)
Luran S - ASA grades
Luran S - ASA/PC grades
Luran S KR 2867 C WU
Luran S molding compounds are generally processed at melt temperatures of from 240 to 280°C, but the polycarbonate-containing Luran® S grades (eg. Luran® S KR 2861/1 C) should be processed at 260 to 300°C except the flame-retardant grade Luran® S KR 2867 CWU, for which a temperature range of 260 to 280°C is recommended (see Table 4 above). For processing at the upper end of the temperature range short residence times should be used, since otherwise the material can undergo thermal degradation. This can be recognized in colored compounds by the change in color; it normally becomes somewhat paler.
Even at high screw rotation rates plastification of Luran S molding compounds proceeds smoothly and without thermal degradation. Plastification performance rises with increasing processing temperature.
For high processing temperatures and/or for long cycle times the temperature of the first heater band (close to the feed hopper) should be set somewhat lower in order to prevent premature melting of the granules in the feed zone (bridging).
A relatively high injection speed is useful since little cooling occurs during mold filling; this gives a glossy surface, a low visibility of the weld lines and a high weld line strength. Too low a rate of mold filling gives parts with unsatisfactory surfaces. When the melt is injected, care should be taken that the air in the mold cavity can escape at a suitable point, to avoid charring by compressed air (diesel effect). To obtain perfect injection-molded parts and to prevent the formation of voids, the hold pressure and the hold pressure time must be sufficient to compensate the volume reduction which occurs when the melt is cooled. On the other hand overfeeding of the mold cavity must also be avoided, since this causes stresses in the molding. The risk of overfeeding exists mainly in the vicinity of the gate, at high injection rates and high hold pressure.
The spiral flow test in Fig. 14 and Fig. 15 shows the flow characteristics of Luran S.
Fig. 14 : Flowability of Luran S (ASA) as a function of melt temperature (spiral flow test). Mold: Test spiral 2 mm x 10 mm; Injection pressure 1100 bar; mold surface temperature 60 °C
Fig. 15 : Flowability of Luran S (ASA+PC) as a function of melt temperature (spiral flow test). Mold: Test spiral 2 mm x 10 mm; Injection pressure 1100 bar; mold surface temperature 80 °C
Luran S can be readily demolded, so that even moldings of complicated design are possible. Drafts of from 0.5 to 0.9° are generally sufficient. Textured surfaces require larger drafts: 1° makes it possible to demold a part with 0.02 mm depth of texture from the mold cavity and a part with 0.01 mm from the mold core.
Shrinkage and post-shrinkage
Shrinkage is significantly lower with Luran S molding compounds than with semi crystalline plastics.
The processing shrinkage is usually from 0.4 to 0.7%, and in exceptional cases well below 0.4%. In regions of a molding which experience high hold pressure (near to the gate) it may even be close to 0%.
Post-shrinkage is negligible in most applications, making up about 1/10 of the overall shrinkage.
Luran S is highly suitable for the extrusion of sheets, solid and hollow profiles and pipes. Specific extrusion grades are available for this and are identified with an "E" (e.g. Luran S 797 SE).
Suitable extruders for the manufacture of extruded sheets comprise those generally used for processing impact-modified polystyrene and ABS, having a sheet extrusion die. Vented extruders with a screw length of from 25 to 30 D and a compression ratio of from 1:2 to 1:4 are preferable.
In most cases the optimum throughput of sheets with superior mechanical properties and good appearance is achieved at about 230°C for the ASA grades or at about 260°C for the ASA/PC grades.
Pipe and profile manufacture
The same conditions apply for the manufacture of pipes and profiles as for the extrusion of sheets. The melt temperature, however, is generally set lower in order to achieve sufficient melt strength between die and calibrator. The recommended lower limit here is 200°C. Preferably, the cooling conditions should be set to give an external temperature of about 70 to 80°C for the semi-finished products after passing through the water bath.
The Luran S grades most suitable for blow molding are those with low flowability. It should be extruded at a melt temperature of from 220 to 230°C. In individual cases, the melt temperature can be lowered to about 210°C in order to reduce stretching of the extruded tube. Short ejection cycles, as achieved when melt accumulators are used are advantageous. Undercuts in blowing molds, e.g. at the thread runout or as a result of the curvature of bottle bases, should be avoided. The pinch-off areas can be designed in the same way as for PE-HD processing. The pinch-off edges should be as sharp as possible to ease flash removal. In the case of engineering parts, the flash areas should be sectioned off by well-defined pinch-offs.
Sheets and films made from Luran S can be thermoformed to give moldings with good wall thickness distribution. Thermoforming of Luran S can be carried out with standard machinery for the vacuum forming and compressed-air forming of sheets and films. Recommended forming temperatures are from 140 to 170°C.
Storage and packing of thermoforming sheet
Like ABS, Luran S tends to absorb moisture under poor conditions of storage. On thermoforming, sheets which have become moist can generate bubbles which make the molding unusable. Storage in dry areas (about 20°C, 30% relative humidity) prevents the absorption of moisture which impairs thermoforming. However, if storage takes place under standard conditions of temperature and pressure (DIN 50014-23/50-2), the moisture content may reach levels which could adversely affect processing after some days or weeks.
Semi-finished products made from Luran® S are easy to machine, i.e. die-punch, saw, drill, mill, turn etc., using conventional metal- and woodworking machinery. Tools used for machining brass and bronze are suitable. Because heat dissipation is slow, water cooling is frequently necessary even at low cutting speeds. Luran S parts can be stamped and flanged without difficulty and can be fastened using self-tapping screws.
Hot-plate and spin welding are suitable for welding semi-finished products and moldings made from Luran S, and in specific cases high-frequency and ultrasonic welding can also be used.
Ultrasonic welding can also be used to connect Luran S to a number of other thermoplastics, such as SAN, ABS, PVC and PMMA.
Solvents auch as methyl ethyl ketone, dichloroethylene and cyclohexanone dissolve Luran S and can therefore be used to join Luran® S parts with parts made from Luran S, SAN or ABS. In any case prior trials in order to determine the suitability are necessary. For more information we recommend contacting the adhesives industry, which offers a wide variety of suitable special adhesives.
Surface treatmentParts made from Luran S may be easily and permanently printed, coated or painted without any special pretreatment. They can also be metallized by the metallizing processes commonly used in industry.
Safety precautions during processing
No adverse effects on the health of processing personnel have been observed when processing of the products is carried out correctly and there is suitable ventilation of the production areas. The maximum allowable concentrations (MAC) of
- 20 ml/m3 for styrene
- 100 ml/m3 for alpha-methyl-styrene
- 10 ml/m3 for butyl acrylate
and the technical reference concentration of 3 ml/m3 for acrylonitrile must be observed (German Hazardous Materials Regulations 900; MAC list 1999).
Acrylonitrile is a Group III, A2 substance for which carcinogenic activity is assumed as a result of toxicity testing. Experience has shown that when Luran S is processed correctly with appropriate ventilation, the levels are far below the limits mentioned above. Inhalation of the vapours of degradation products which can arise on severe overheating of the materials or during pumping out should be avoided. Please consult our material safety data sheets.
Safety Data Sheet