Additive manufacturing processes employing a material featuring properties of a soft bodily tissue

What is claimed is: 1 . A three-dimensional object featuring a hardness of a soft bodily tissue, comprising: voxels of a material having a Shore A hardness lower than 10 or a Shore 00 hardness lower than 40 and characterized by Tear Resistance of from about 150 N/m to about 500 N/m, and being a hardened form of a formulation which comprises photocurable materials and non-curable polymeric materials, wherein a total amount of said non-curable materials ranges from 10 to 49% by weight, of the total weight of said formulation; and voxels of an additional material which is a hardened form of an elastomeric curable formulation and is characterized by Tear Resistance of at least 4,000 N/m, wherein said voxels of said material and said voxels of said additional material are interlaced with each other, such that said voxels of said additional material form a scaffold for said voxels of said material. 2 . The object of claim 1 , being devoid of a biological material. 3 . The object according to claim 1 , having a shape of said soft bodily tissue and/or at least part of a bodily organ comprising a soft bodily tissue. 4 . The object according to claim 1 , comprising at least one layer at which voxels of said additional material constitute from about 10% to about 30% of an area of said layer. 5 . The object according to claim 1 , wherein said voxels of said additional material form a fibrous pattern. 6 . The object according to claim 5 , wherein a characteristic fiber thickness of said fibrous pattern is from about 0.4 mm to about 0.6 mm. 7 . The object according to claim 5 , wherein said fibrous pattern is directional. 8 . The object according to claim 1 , further comprising a shell coating said interlaced voxels. 9 . The object according to claim 8 , wherein said shell comprises voxels of said additional material. 10 . The object according to claim 8 , wherein said shell has a thickness of from about 0.5 mm to about 1 mm. 11 . The object according to claim 1 , wherein an amount of said non-curable polymeric material ranges from 20 to 40 weight percent. 12 . The object according to claim 11 , wherein said non-curable polymeric material has a molecular weight of at least 1000 Daltons, and a Tg lower than 0° C. 13 . The object according to claim 11 , wherein: said non-curable polymeric material comprises polypropylene glycol; and/or said non-curable polymeric material is a block co-polymer that comprises at least one polypropylene glycol block; and/or said non-curable polymeric material is a block co-polymer that comprises at least one polypropylene glycol block and at least one polyethylene glycol block, wherein a total amount of said polyethylene glycol in said block co-polymer is no more than 10 weight percent, wherein a ratio of polypropylene glycol blocks and said polyethylene glycol blocks in said block-copolymer is at least 2:1; and/or said non-curable polymeric material comprises a polypropylene glycol and/or a block co-polymer comprising at least one polypropylene glycol block, each having a molecular weight of at least 2000 Daltons. 14 . The object according to claim 11 , wherein a ratio of the amount of said curable materials and the amount of said non-curable polymeric material ranges from 4:1 to 1.1:1. 15 . The object according to claim 1 , wherein an amount of said curable materials ranges from 55 to 70 weight percent. 16 . The object according to claim 1 , wherein said curable materials comprise at least one mono-functional curable material and at least one multi-functional curable material, wherein an amount of said mono-functional curable material ranges from 50 to 60 weight percent; and/or an amount of said multi-functional curable material ranges from 3 to 10 weight percent. 17 . The object according to claim 16 , wherein said mono-functional curable material has, when hardened, a Tg lower than −10° C. 18 . The object according to claim 16 , wherein said multi-functional curable material has, when hardened, a Tg lower than −10° C.