Printable and extrudable energy absorption materials formulation and method for forming the same

What is claimed is: 1 . A printable and extrudable energy absorption materials formulation comprising: (a) A base composition, containing a polymer matrix, a curing agent, and a sacrificial agent; (b) A dilatancy-promoting composition, containing a dilatant material; and (c) A shear-thinning promoting composition, containing hydroxyl functionalized fillers, the hydroxyl functionalized fillers are present in an amount sufficient to cause enough formation of dynamic hydrogen bonds between polymer chains and the fillers; wherein the formulation is a thixotropic ink, exhibiting shear thinning property during the printing/extruding process, and a printed film/extruded fiber is formed thereof; due to the extensive hydroxyl functional groups on the fillers, dynamic hydrogen bonds between polymer chains and the fillers are formed, the weak hydrogen bonds can be easily broken by shear force, resulting in the decrease in viscosity of the ink; wherein the thixotropic ink is configured to solidify to form cured film/fiber after curing process, the cured film/fiber exhibit dilatancy property; upon curing process, the excessive hydroxyl groups on the fillers can be reduced by reacting with the sacrificial agent through condensation reaction or ring-opening reaction. 2 . The formulation of claim 1 , wherein the hydroxyl functionalized fillers are provided at a concentration of at least 2 parts per hundred weight of the polymer matrix, so as to cause enough formation of dynamic hydrogen bonds between polymer chains and the fillers. 3 . The formulation of claim 1 , wherein the hydroxyl functionalized fillers comprise hydroxyl functionalized silica, clay, carbon nanotube, hydroxylated carbon nanotube, or mixtures thereof. 4 . The formulation of claim 1 , wherein the sacrificial agent is provided at a concentration of at least 2 parts per hundred weight of the polymer matrix. 5 . The formulation of claim 1 , wherein the sacrificial agent comprises polyisocyanate or epoxy-containing polymer. 6 . The formulation of claim 1 , wherein the polymer matrix comprises ethylene vinyl acetate copolymer, ethylene-propylene diene rubber, polyurethane, silicone rubber, styrene-butadiene rubber, acrylonitrile-butadiene rubber, natural rubber, polychloroprene rubber, or combinations thereof. 7 . The formulation of claim 1 , wherein the dilatant material is provided at a concentration of between 5 and 50 parts per hundred weight of the polymer matrix, so as to cause dilatancy property to the cured film/fiber. 8 . The formulation of claim 1 , wherein the dilatant material comprises siloxane polymer, a hydroxyl-terminated dialkylsiloxane polymer, a borate crosslinked hydroxyl-terminated dialkylsiloxane polymer, a siloxane polymer comprising a borated polydimethylsiloxane, a Polyborodimethylsiloxane (PBDMS), a metal oxide/polyethylene glycol dispersion, a metal oxide/poly (ethylene oxide), or a combination thereof. 9 . The formulation of claim 1 , wherein the dilatancy-promoting composition contains a plasticizer, provided at a concentration of between 0.1 and 2 parts per hundred weight of the polymer matrix. 10 . The formulation of claim 9 , wherein the plasticizer comprises fatty acid, oleic acid, glycerin or glyceryl trioleate. 11 . The formulation of claim 9 , wherein the dilatancy-promoting composition contains a dispersant, provided at a concentration of between 0.5 and 10 parts per hundred weight of the polymer matrix. 12 . The formulation of claim 11 , wherein the dispersant comprises castor oil derivatives or diamide waxes. 13 . The formulation of claim 11 , wherein the dilatancy-promoting composition contains a reinforcing agent, provided at a concentration of between 1.2 and 8 parts per hundred weight of the polymer matrix. 14 . A method for forming the printable and extrudable energy absorption materials formulation of claim 13 , comprising: (a) preparing the base composition, by mixing the polymer matrix, the curing agent, and the sacrificial agent; (b) preparing the dilatancy-promoting composition, by mixing the dilatant material, the plasticizer, the dispersant, and the reinforcing agent; (c) mixing the base composition and the dilatancy-promoting composition, stirring to obtain a mixed solution; (c) providing the shear-thinning promoting composition, containing the hydroxyl functionalized fillers; and (e) mixing the shear-thinning promoting composition and the mixed solution, stirring to obtain the formulation. 15 . The formulation of claim 1 , wherein the base composition contains expandable microsphere. 16 . The formulation of claim 1 , wherein the formulation contains antioxidant and/or anti-UV agent. 17 . The formulation of claim 13 , wherein the oscillation sensitivity of the cured film/fiber made of the formulation of claim 13 at oscillation state should be at least 2 times that at static state. 18 . An anti-impact cloth comprises: a fabric base; and one or more anti-impact films made from the formulation of claim 13 applied to at least one surface of the fabric base, with thickness no more than 3 mm, the impact resistance of the anti-impact film shall be at least level 1 according to such as ANSI 138 standard (transmitted force no more than 9 kN under impact energy of 5 J); wherein the oscillation sensitivity the anti-impact film at oscillation state should be at least 2 times that at static state. 19 . The anti-impact cloth of claim 18 , wherein the density of the anti-impact film is less than 0.6 g/cm 3 while the formulation contains expandable microspheres in sufficient amount. 20 . A printable and extrudable energy absorption materials formulation comprising: (a) 100 parts of silicone rubber; (b) 35-45 parts per hundred rubber of PBDMS; (c) 2-10 parts per hundred rubber of hydroxyl functionalized filler; (d) 0.5-5 parts per hundred rubber of curing agent; (e) 2-5 parts per hundred rubber of sacrificial agent; (f) 0.2-1 parts per hundred rubber of a plasticizer; (g) 0.8-8 parts per hundred rubber of a dispersant; and (h) 1.2-8 parts per hundred rubber of reinforcing agent.