Method for making artificial turf infill with rounded olive pit fragments

What is claimed is: 1. A method of creating an artificial turf infill, the method comprising: providing olive pit fragments; tumbling the olive pit fragments to produce an olive pit material comprising rounded olive pit fragments and olive pit particles; and using the olive pit material as the artificial turf infill or as a component of the artificial turf infill, wherein the tumbling is performed at an effective tumbling intensity and for an effective period of time to smoothen sharp edges of the olive pit fragments and generate a total olive pit material having a bimodal size distribution with a major mode and a minor mode, wherein the major mode comprises the rounded olive pit fragments and has a peak between 0.5 mm to 4.0 mm, and wherein the minor mode comprises the olive pit particles of a size less than 63 μm and has a peak at less than 63 μm. 2. The method of claim 1 , wherein the olive pit particles are in an amount of at least 0.5 wt % of the total olive pit material generated by the tumbling, and wherein the rounded olive pit fragments are in an amount of at least 80.0 wt % of the total olive pit material generated by the tumbling. 3. The method of claim 1 , further comprising: mixing together with the olive pit fragments at least one of cork particles, and cherry pits whole, fragments, or mixtures thereof; and using the mixture as the infill or a component of the infill. 4. The method of claim 1 , wherein the artificial turf infill comprises only bio-based materials and is free of any rubber, elastomeric, polymer-based infill, and sand. 5. The method of claim 1 , wherein the method is free of a step which crushes or grinds the not-yet rounded olive pit fragments or the rounded olive-pit fragments. 6. The method of claim 2 , further comprising thermally treating the olive pit fragments to a temperature of 80° C. to 250° C. 7. The method of claim 6 , wherein the tumbling and the thermally treating are performed simultaneously in a thermo-tumbler apparatus, wherein the thermal treatment includes feeding hot air, steam, or superheated steam in the thermo-tumbler apparatus; and/or wherein the olive pit fragments which are fed to the thermo-tumbler apparatus are products of an olive oil press using compression to extract olive oil from olives. 8. A method of creating an artificial turf, comprising: installing an artificial turf; and applying the artificial turf infill created according to the method of claim 2 on a carrier of the installed artificial turf or on an existing infill layer, wherein the artificial turf infill comprises at least a mixture of the rounded olive pit fragments and of the olive pit particles, wherein the applying of the artificial turf infill is performed in a single step, and allowing the olive pit particles in the applied infill to segregate from the rounded olive pit fragments and automatically trickle down into voids between the olive pit fragments. 9. The method of claim 8 , wherein the artificial turf has a two-layer structure comprising a stabilization layer and a performance layer on top of the stabilization layer, wherein at least one of the stabilization layer and the performance layer comprises microporous zeolite particles; and/or wherein the performance layer comprises at least one other bio-based material. 10. A method of creating an artificial turf infill, the method comprising: providing olive pit fragments; tumbling the olive pit fragments to produce an olive pit material comprising rounded olive pit fragments; thermally treating the olive pit material to a temperature of 80°° C. to 250° C., and using the olive pit material as the artificial turf infill or as a component of the artificial turf infill, wherein a total olive pit material generated by the tumbling has a bimodal size distribution with a major mode and a minor mode, wherein the major mode comprises the rounded olive pit fragments and has a peak between 0.5 mm to 4.0 mm, and wherein the minor mode comprises the rounded olive pit fragments of a size less than 63 μm has a peak at less than 63 μm. 11. The method of claim 10 , wherein the olive pit material is thermally treated to a temperature of 150° C. to 250° C. 12. The method of claim 10 , wherein the tumbling and the thermally treating are performed simultaneously in a thermo-tumbler apparatus, wherein the thermal treatment includes feeding hot air, steam, or superheated steam in the thermo-tumbler apparatus, and/or wherein the olive pit fragments which are fed to the thermo-tumbler apparatus are products of an olive oil press using compression to extract olive oil from olives. 13. The method of claim 10 , further comprising: mixing together with the rounded and thermally treated olive pit fragments at least one of cork particles, and cherry pits whole, fragments, or mixtures thereof; and using the mixture as the infill or a component of the infill. 14. A method of creating an artificial turf infill, the method comprising: providing olive pit fragments and microporous zeolite particles; mixing the microporous zeolite particles together with the olive pit fragments to form a mixture and tumbling the mixture in a thermo-tumbler apparatus to form rounded olive pit fragments, wherein the microporous zeolite particles enhance the rounding of sharp edges of the olive pit fragments; and using the rounded olive pit fragments and the microporous zeolite particles as the infill or as components of the infill.