Rotational molded part

Stabilizers counter the effect of the high temperatures and the oxygen rich atmosphere experienced by the resin during the rotational molding process. Since some rotational molded parts require up to one hour of residence time in the oven, such stabilizers are essential. Without them, the polymer would lose its inherent properties, becoming unfit for the final application. 

Throne, J.L. Some factors influencing cooling rates of rotational molding parts. Polym. Eng. Sci. 1972, 12 (5), 335-339. 

Example 11.8 Explain the variation in the physical properties of rotational molded parts from polypropylene and polystyrene shown in Table El 1.8 with changes in the cooling cycle... 

Table E11.8 Physical Properties of Rotational Molded Parts...

Rotational molded part. [Data from Fmnire, J, Worid Patent WO2013092363, Jan 27,... 

Referring again to Fig. 8.31, the minimum wall separation (X) should be no less than 5 times the wall thickness (W) (X > 5WO, except for extreme situations when 3 times the wall thickness can be used. However, tack-offs (P, Q, R) used to stiffen the part are feasible. The combined wall thickness (S) should be 1.75 times the wall thickness (S = 1.75W0. Inserts, such as the one at A can also be used in rotational molded parts. The recommended draft angles will vary according to the material as indicated in Table 8.15. 

The permissible inside and outside radii (IR and OR in Fig. 8.36) for rotational molded parts varies according to the material. Table 8.16 provides a handy reference. 

Holes can be molded-in rotational molded parts by using core pins to which the resin does not adhere. Bosses can be molded by molding a raised cylinder such as that at T. The tip of the cylinder is then cut off to leave an opening. The diameter of this type of hole should be at least 5 times the nominal wall thickness (D > 5W). Threads, both inside and outside, such as the one at S, are readily rotational molded. Recommended tolerances are provided in Table 8.17 (see Fig. 8.37). 

Natural fibers (sisal, cabuya) acted as a nucleating agent for bubbles and pores in rotational molded parts manufactured from HDPE. This process increased part porosity and sintering time. ... 

The wall-thickness variations that result from such steps are always gradual, with abmpt wall thickness changes being virtually impossible. The maximum recommended thickness buildup, when necessary, is 50 percent of the normal wall thickness for the part. The following recommendations apply to designed wall thicknesses of rotational molded parts a preferred or desirable nominal wall thickness of 1/10 to in., a minimum wall thickness of 0.050 to 0.060 in., a maximum wall thickness of i in., and an optimum thickness of glass-fiber-reinforced plastic parts of f in. 

Variation of wall thickness has a direct impact on the way in which rotationally molded parts are dimensioned. Since the wall section may vary and in many cases cannot accurately be predicted before a part is made, the part must be dimensioned to an external feature. If an internal dimension is required, then allowances for the upper tolerance of wall thickness variation must be made. Designers used to specifying injection molded parts with controlled surfaces both inside and outside of the part can find this difficult to deal with. However, extmsion blow-molding and twin sheet thermoforming share the same limitations and rotational molding actually maintains more uniform wall thicknesses than either one of these competitive processes. 

Tolerances for rotationally molded parts are generally given as a percentage of the dimensions or an inch per inch value (cm per cm). The designer should endeavor to use the broadest tolerance possible that can be tolerated by the final application. Overspecifying tolerances inevitably leads to higher costs and rework of molds or parts. 

Large flat surfaces are a major problem in rotationally molded parts as they tend to distort during cooling due to uneven wall thickness and uncontrolled release. The problem is most apparent in highly crystalline materials such as polyethylene. If... 

Surface texture can be controlled on the outside surface of the part because the molds are female. Rotationally molded parts generally have a good appearance on the outer surface without sink marks. Matte finish and grains can be readily obtained on the exterior part surface. A glossy finish is difficult to obtain and significantly increases the cost of the mold. Com-... 

Figure 2.10 Rotationally molded parts usually have a thick skin and a holiow core, just like a chocolate Easter bunny. Jules Kitano/Shutterstock.com.

A fundamental study was conducted to determine the parameters causing OP in rotational molded parts made from blended polymers. The study of the effects of process conditions showed that increasing heating time and temperature resulted in lower crystallinity and lower surface roughness. Some thermal degradation was also observed. 

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