Stereoscopic modeling apparatus, method of manufacturing stereoscopic modeled product, and non-transitory recording medium

What is claimed is: 1 . A stereoscopic modeling apparatus, comprising: a modeling part to form a powder layer with a powder; a modeling unit to discharge droplets of a modeling liquid on the powder layer to form a modeling layer in which particles of the powder are bonded; and a controller to cause the modeling part and the modeling unit to repeat forming the powder layer and the modeling layer, respectively, to sequentially laminate the modeling layer to form a stereoscopic modeled product, wherein the droplets include a preceding droplet and a succeeding droplet sequentially discharged to adjacent positions on the powder layer, and the succeeding droplet is discharged after the preceding droplet is discharged and within a time period in which a contact angle between the preceding droplet impacted on the powder layer and the powder in the powder layer remains greater than 90 degrees. 2 . The stereoscopic modeling apparatus according to claim 1 , wherein the succeeding droplet is discharged after the preceding droplet is discharged and within a time period in which the contact angle remains greater than 90 degrees and less than 110 degrees. 3 . The stereoscopic modeling apparatus according to claim 2 , wherein an initial static contact angle between the modeling liquid and the powder in the powder layer is 110 degrees or more. 4 . The stereoscopic modeling apparatus according to claim 1 , wherein the powder includes: a base material; and an organic material covering the base material. 5 . The stereoscopic modeling apparatus according to claim 4 , wherein the modeling liquid includes a cross-linker cross-linkable with the organic material. 6 . A method of manufacturing a stereoscopic modeled product, comprising: forming a powder layer with a powder; discharging droplets of a modeling liquid on the powder layer to form a modeling layer in which particles of the powder are bonded; and repeating the forming and the discharging to sequentially laminate the modeling layer to form the stereoscopic modeled product, wherein the droplets include a preceding droplet and a succeeding droplet sequentially discharged to adjacent positions on the powder layer, and the succeeding droplet is discharged after the preceding droplet is discharged and within a time period in which a contact angle between the preceding droplet impacted on the powder layer and the powder in the powder layer remains greater than 90 degrees. 7 . A non-transitory recording medium storing a plurality of instructions which, when executed by one or more processors, cause the processors to perform a method, comprising: forming a powder layer with a powder; discharging droplets of a modeling liquid on the powder layer to form a modeling layer in which particles of the powder are bonded; and repeating the forming and the discharging to sequentially laminate the modeling layer to form the stereoscopic modeled product, wherein the droplets include a preceding droplet and a succeeding droplet sequentially discharged to adjacent positions on the powder layer, the succeeding droplet discharged after the preceding droplet is discharged and within a time period in which a contact angle between the preceding droplet impacted on the powder layer and the powder in the powder layer remains greater than 90 degrees.