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These are the user uploaded subtitles that are being translated: 1 00:00:03,172 --> 00:00:06,137 --captions by vitac-- Www.Vitac.Com 2 00:00:06,137 --> 00:00:09,137 Captions paid for by Discovery communications 3 00:00:53,379 --> 00:00:55,896 Narrator: spiral stairs Were part of a strategy 4 00:00:55,896 --> 00:00:58,827 To defend the towers Of medieval castles. 5 00:00:58,827 --> 00:01:01,103 Attackers had to Climb single-file 6 00:01:01,103 --> 00:01:04,241 And couldn't storm The castle all at once. 7 00:01:04,241 --> 00:01:05,793 And at the top of the stairs, 8 00:01:05,793 --> 00:01:09,068 The guardsmen could more easily Maneuver their swords, 9 00:01:09,068 --> 00:01:11,068 Giving them the upper hand. 10 00:01:14,413 --> 00:01:17,000 Spiral stairs take people To the next level 11 00:01:17,000 --> 00:01:20,241 Without taking up A lot of space. 12 00:01:20,241 --> 00:01:23,482 They're compact, and with Their corkscrew curvature, 13 00:01:23,482 --> 00:01:27,620 They can also be Architectural features. 14 00:01:27,620 --> 00:01:30,068 Production starts with The steel hubs 15 00:01:30,068 --> 00:01:32,689 Cut to the desired riser height. 16 00:01:32,689 --> 00:01:35,413 A worker files The sharp edges smooth 17 00:01:35,413 --> 00:01:36,793 And drills a threaded hole 18 00:01:36,793 --> 00:01:40,034 Which will be used to fasten The treads in place. 19 00:01:42,482 --> 00:01:46,517 A computer-driven plasma system Cuts through a sheet of steel 20 00:01:46,517 --> 00:01:51,344 To produce the pie-shaped Stair treads. 21 00:01:51,344 --> 00:01:53,758 A worker nestles a tread To the hub 22 00:01:53,758 --> 00:01:56,275 And clamps them In a weld fixture. 23 00:01:56,275 --> 00:01:58,482 He also clamps Structural supports 24 00:01:58,482 --> 00:02:02,241 To the base of the tread. 25 00:02:02,241 --> 00:02:04,689 With everything in The right configuration, 26 00:02:04,689 --> 00:02:07,965 He welds the supports To the tread and the hub. 27 00:02:07,965 --> 00:02:12,517 He'll make 12 of these hub And tread assemblies. 28 00:02:12,517 --> 00:02:16,655 He chips off the weld slag For cleaner seams. 29 00:02:16,655 --> 00:02:19,482 A team slides the hub And tread assemblies 30 00:02:19,482 --> 00:02:21,034 On to the center pole 31 00:02:21,034 --> 00:02:24,103 And rotates them To the correct position. 32 00:02:24,103 --> 00:02:27,448 The design geometry Dictates the rotation. 33 00:02:27,448 --> 00:02:29,137 Once rotated correctly, 34 00:02:29,137 --> 00:02:31,689 The workers fasten the hubs To the pole 35 00:02:31,689 --> 00:02:34,103 And add a platform For the top step. 36 00:02:36,862 --> 00:02:40,965 A baluster spins in a lathe, As tools cut it to length 37 00:02:40,965 --> 00:02:44,103 And round the end To the correct diameter. 38 00:02:44,103 --> 00:02:46,689 The operator measures The diameter. 39 00:02:46,689 --> 00:02:48,793 He inserts the rounded end In a dye 40 00:02:48,793 --> 00:02:52,965 That carves the thread into it. 41 00:02:52,965 --> 00:02:54,862 A worker welds a steel cup 42 00:02:54,862 --> 00:02:57,896 Just above the threaded part Of the baluster. 43 00:02:57,896 --> 00:02:59,724 This cup will support The baluster 44 00:02:59,724 --> 00:03:02,172 Once it's been installed On the thread. 45 00:03:02,172 --> 00:03:04,896 He grinds the weld scale From the cup. 46 00:03:04,896 --> 00:03:07,034 He inserts the baluster Through holes 47 00:03:07,034 --> 00:03:09,206 In a metal spacer in the tread. 48 00:03:09,206 --> 00:03:12,344 He screws a nut on to the end To secure it. 49 00:03:14,758 --> 00:03:18,586 Using rollers now, another Worker twists long strips 50 00:03:18,586 --> 00:03:21,413 Of metal into spiraling Hand rails that match 51 00:03:21,413 --> 00:03:23,758 The rise of the stairs. 52 00:03:23,758 --> 00:03:26,068 He fits the rail To the top balusters 53 00:03:26,068 --> 00:03:29,655 And clamps it in place. 54 00:03:29,655 --> 00:03:33,172 He then welds the balusters To the rail. 55 00:03:33,172 --> 00:03:36,241 He adds more railing until It spirals all the way down 56 00:03:36,241 --> 00:03:39,310 To the first step. 57 00:03:39,310 --> 00:03:42,793 The team secures it To the platform. 58 00:03:42,793 --> 00:03:46,620 The spiral staircase's metal Structure is now complete. 59 00:03:46,620 --> 00:03:48,931 It's ready for The wooden accents. 60 00:03:51,068 --> 00:03:54,551 A worker applies glue To pieces of red oak. 61 00:03:54,551 --> 00:03:57,724 He'll use two of them To make one stair tread. 62 00:03:57,724 --> 00:04:01,655 He clamps two tread sets in A fixture while the glue sets. 63 00:04:01,655 --> 00:04:03,206 He inserts a shim 64 00:04:03,206 --> 00:04:07,344 And tightens the clamp To apply downward pressure. 65 00:04:07,344 --> 00:04:10,862 Once the glue has cured, A planer shaves the tread 66 00:04:10,862 --> 00:04:15,000 Perfectly flat And to the desired thickness. 67 00:04:15,000 --> 00:04:16,931 After refining the profile, 68 00:04:16,931 --> 00:04:21,206 A worker rounds the edge of The stair tread using a router. 69 00:04:22,965 --> 00:04:25,344 After gluing strips of wood Together to create 70 00:04:25,344 --> 00:04:28,896 A curved railing, He sands the excess adhesive, 71 00:04:28,896 --> 00:04:32,344 And with a file, Removes more of the glue. 72 00:04:32,344 --> 00:04:36,448 He turns the railing over And carves a groove in the wood. 73 00:04:36,448 --> 00:04:38,724 This will enable the railing To be installed 74 00:04:38,724 --> 00:04:40,965 Over the metal rail support. 75 00:04:40,965 --> 00:04:44,758 He adds some detailing Along the edge. 76 00:04:44,758 --> 00:04:46,758 A team then fits The wooden railing 77 00:04:46,758 --> 00:04:49,172 To the metal support structure. 78 00:04:49,172 --> 00:04:53,275 All of the rail sections Fit together perfectly. 79 00:04:53,275 --> 00:04:56,068 After the pre-fit, They remove the railing 80 00:04:56,068 --> 00:04:58,482 And sculpt the edges To be rounder. 81 00:04:58,482 --> 00:05:03,413 The rounded edges complement The overall spiral design. 82 00:05:03,413 --> 00:05:07,103 A worker pre-fits the wooden Treads to the metal structure 83 00:05:07,103 --> 00:05:10,517 And then disassembles The entire spiral staircase 84 00:05:10,517 --> 00:05:12,275 For painting and staining. 85 00:05:14,413 --> 00:05:17,965 The spiral stairs are then ready For reassembly in the building 86 00:05:17,965 --> 00:05:19,689 They were designed for. 87 00:05:19,689 --> 00:05:24,413 They'll definitely add a certain Twist to the interior design. 88 00:05:34,310 --> 00:05:36,206 Narrator: Originating in the middle east, 89 00:05:36,206 --> 00:05:39,206 Pita bread has been around For thousands of years. 90 00:05:39,206 --> 00:05:43,241 Today, its popularity continues To grow around the globe. 91 00:05:43,241 --> 00:05:45,965 Part of its appeal Is its versatility. 92 00:05:45,965 --> 00:05:48,206 People can stuff Their pita's pockets, 93 00:05:48,206 --> 00:05:51,517 Use it as a sandwich wrap, Or slice it for dipping. 94 00:05:54,931 --> 00:05:56,586 Pita bread may be flat, 95 00:05:56,586 --> 00:05:58,689 But that doesn't mean It's boring. 96 00:05:58,689 --> 00:06:00,862 Anyone can use pita To make any number 97 00:06:00,862 --> 00:06:05,241 Of interesting Lunchtime combinations. 98 00:06:05,241 --> 00:06:09,034 Making pita bread starts With silos full of flour. 99 00:06:09,034 --> 00:06:12,758 A blower system delivers the Flour to an automated sifter. 100 00:06:12,758 --> 00:06:15,965 The sifter shakes the flour Through three levels of mesh 101 00:06:15,965 --> 00:06:18,103 To filter out impurities. 102 00:06:18,103 --> 00:06:21,862 Magnets extract Any metal contaminants. 103 00:06:21,862 --> 00:06:25,482 Workers prepare a pre-mix Of sugar, salt, yeast, 104 00:06:25,482 --> 00:06:27,241 And preservatives. 105 00:06:27,241 --> 00:06:29,793 They combine these ingredients With the sifted flour 106 00:06:29,793 --> 00:06:33,000 In a big mixer and add water. 107 00:06:33,000 --> 00:06:35,172 The mixer is equipped With numerous bars 108 00:06:35,172 --> 00:06:39,379 That rotate horizontally To blend the ingredients. 109 00:06:40,241 --> 00:06:44,172 The operator opens the mixer And spins it one more time 110 00:06:44,172 --> 00:06:46,586 To eject the dough into a bin. 111 00:06:50,068 --> 00:06:53,965 He rolls the bin To the next station. 112 00:06:53,965 --> 00:06:57,172 Here the pita dough Goes into a hopper. 113 00:06:57,172 --> 00:06:59,689 And from there, It drops into a machine 114 00:06:59,689 --> 00:07:01,344 Called a dough divider. 115 00:07:07,137 --> 00:07:12,000 This machine turns big chunks Of dough into many small blobs. 116 00:07:12,000 --> 00:07:15,724 To do this, it forces the dough Through a round hole, 117 00:07:15,724 --> 00:07:21,137 And a guillotine blade chops it To the correct thickness. 118 00:07:21,137 --> 00:07:24,310 The dough blobs ride a conveyor And pass under a roller 119 00:07:24,310 --> 00:07:27,034 That flattens them. 120 00:07:27,034 --> 00:07:30,965 Flour from an overhead sifter Dusts the dough blobs 121 00:07:30,965 --> 00:07:35,206 To keep them from sticking To the machinery. 122 00:07:35,206 --> 00:07:37,068 Each one of these flattened Dough blobs 123 00:07:37,068 --> 00:07:39,000 Will eventually become a pita. 124 00:07:42,241 --> 00:07:44,068 The round pieces of dough Now ride 125 00:07:44,068 --> 00:07:46,758 A conveyor up to a warm zone. 126 00:07:46,758 --> 00:07:50,413 Over a period of 15 minutes, The yeast ferments, 127 00:07:50,413 --> 00:07:53,068 Causing the dough to rise. 128 00:07:53,068 --> 00:07:55,034 Out of the fermentation station, 129 00:07:55,034 --> 00:08:00,103 A roller flattens The pita dough segments again. 130 00:08:00,103 --> 00:08:02,586 They're now ready To be rolled very thin 131 00:08:02,586 --> 00:08:04,931 In a process known as sheeting. 132 00:08:07,310 --> 00:08:10,724 The next roller presses The pita dough much thinner. 133 00:08:10,724 --> 00:08:12,413 Rolling it in one direction 134 00:08:12,413 --> 00:08:14,965 Makes the dough segments Oval-shaped. 135 00:08:18,137 --> 00:08:20,310 The oval pitas ride by a pusher 136 00:08:20,310 --> 00:08:25,275 That now shoves them Towards the final roller. 137 00:08:25,275 --> 00:08:28,862 It rolls the dough in the other Direction to round out the shape 138 00:08:28,862 --> 00:08:30,620 And make it even thinner. 139 00:08:34,379 --> 00:08:36,275 Perfectly round and thin, 140 00:08:36,275 --> 00:08:40,068 The pitas now travel up to Another fermentation operation. 141 00:08:42,275 --> 00:08:44,931 Inside, the temperature Is toasty. 142 00:08:44,931 --> 00:08:47,310 It's warm enough to reawaken The yeast 143 00:08:47,310 --> 00:08:49,655 And cause the dough To rise again. 144 00:08:53,034 --> 00:08:56,551 Conveyors move in criss-cross Directions to take the pitas 145 00:08:56,551 --> 00:08:58,206 Back and forth. 146 00:08:58,206 --> 00:09:03,137 This zig-zagging journey Lasts about 15 minutes. 147 00:09:03,137 --> 00:09:05,413 When the pitas emerge From the chamber, 148 00:09:05,413 --> 00:09:09,137 They have thickened up Substantially. 149 00:09:09,137 --> 00:09:12,413 They head into an oven Where the magic happens. 150 00:09:12,413 --> 00:09:15,482 The oven's temperature is Between 750 151 00:09:15,482 --> 00:09:18,034 And 930 degrees fahrenheit. 152 00:09:18,034 --> 00:09:20,517 They spend just 15 seconds in it. 153 00:09:20,517 --> 00:09:23,206 This flash-baking causes The water in the dough 154 00:09:23,206 --> 00:09:24,655 To turn to steam. 155 00:09:24,655 --> 00:09:28,896 The steam puffs the pitas, Creating pockets inside. 156 00:09:28,896 --> 00:09:30,241 The pitas then travel 157 00:09:30,241 --> 00:09:33,034 On conveyors For a 20 minute cool down. 158 00:09:33,034 --> 00:09:36,000 As they cool, they deflate. 159 00:09:36,000 --> 00:09:39,241 The process has created pockets In the pitas. 160 00:09:39,241 --> 00:09:40,655 Once sliced open, 161 00:09:40,655 --> 00:09:44,344 The pockets can be stuffed To create sandwiches. 162 00:09:44,344 --> 00:09:49,103 Workers stack the pitas Six high for packaging. 163 00:09:49,103 --> 00:09:51,689 The next conveyor delivers The stacks into the clutch 164 00:09:51,689 --> 00:09:55,103 Of an automated arm. 165 00:09:55,103 --> 00:09:58,344 Just ahead, a burst of air Opens a bag 166 00:09:58,344 --> 00:10:00,965 And the arm inserts The pitas into it. 167 00:10:00,965 --> 00:10:06,379 At the same time, it pushes The bag on to the next conveyor. 168 00:10:06,379 --> 00:10:09,517 Moving forward, another device Automatically twists 169 00:10:09,517 --> 00:10:12,310 The open end of the bag. 170 00:10:12,310 --> 00:10:14,517 The device applies A plastic lock tab 171 00:10:14,517 --> 00:10:20,137 To the twisted end of the bag, Sealing the pita breads inside. 172 00:10:20,137 --> 00:10:22,655 The bags pass by A metal detector, 173 00:10:22,655 --> 00:10:25,068 And then they're on their way To the supermarket. 174 00:10:29,413 --> 00:10:33,689 This pita bread has taken 45 minutes to make and package, 175 00:10:33,689 --> 00:10:37,517 But it should enable lunch To come together very quickly. 176 00:10:47,758 --> 00:10:49,241 Narrator: Installing exhaust headers 177 00:10:49,241 --> 00:10:52,172 Will add extra power From a car's engine. 178 00:10:52,172 --> 00:10:54,689 They bolt on to the engine, Giving each cylinder 179 00:10:54,689 --> 00:10:57,206 Its own exhaust pipe Leading to the collector, 180 00:10:57,206 --> 00:11:00,517 Which connects to the car's Main exhaust pipe. 181 00:11:00,517 --> 00:11:03,310 That's more efficient than Having all the cylinders exhaust 182 00:11:03,310 --> 00:11:05,206 Into a common manifold. 183 00:11:07,793 --> 00:11:11,482 A header draws out significantly More spent exhaust gasses 184 00:11:11,482 --> 00:11:14,655 After combustion, leaving room For a greater amount 185 00:11:14,655 --> 00:11:16,310 Of new gas and fresh air 186 00:11:16,310 --> 00:11:20,724 To enter the cylinder For the next combustion cycle. 187 00:11:20,724 --> 00:11:23,931 Headers are made of steel Or stainless steel. 188 00:11:23,931 --> 00:11:27,344 A worker uses a roll cutter To slice tubes into nearly 189 00:11:27,344 --> 00:11:31,517 6-inch-long pieces For the header's collector. 190 00:11:31,517 --> 00:11:33,344 A forming tool on a press 191 00:11:33,344 --> 00:11:36,862 Stretches one side Of the collector outward. 192 00:11:36,862 --> 00:11:41,344 Then the worker places the same Side on an end-forming machine, 193 00:11:41,344 --> 00:11:44,586 Which shapes it like A four-leaf clover. 194 00:11:44,586 --> 00:11:47,689 He slips a flange over The unshaped side 195 00:11:47,689 --> 00:11:51,172 And widens that side to create The ball portion 196 00:11:51,172 --> 00:11:53,758 Of the gasketless ball And socket connection 197 00:11:53,758 --> 00:11:55,896 To the car's main exhaust pipe. 198 00:11:58,551 --> 00:12:02,137 Meanwhile, another worker Roll cuts narrower tubes 199 00:12:02,137 --> 00:12:06,551 Into 32-inch-long pieces to make The header's primary tubes, 200 00:12:06,551 --> 00:12:11,655 The ones that attach at the top To engine's cylinders. 201 00:12:11,655 --> 00:12:14,379 A worker slides a tube On to a mandrel, 202 00:12:14,379 --> 00:12:16,758 Then the computer-guided Mandrel bender 203 00:12:16,758 --> 00:12:19,344 Bends the tube in four places. 204 00:12:19,344 --> 00:12:22,034 The mandrel fills the inside Of the tube 205 00:12:22,034 --> 00:12:24,965 Just up to the bend point, Preventing the tube from 206 00:12:24,965 --> 00:12:28,793 Compressing or collapsing Under pressure. 207 00:12:28,793 --> 00:12:32,172 The header they're making here Is for a four-cylinder engine, 208 00:12:32,172 --> 00:12:34,793 So it has four primary tubes. 209 00:12:34,793 --> 00:12:37,689 An eight-cylinder engine Requires a pair of headers, 210 00:12:37,689 --> 00:12:39,137 Whereas a six-cylinder engine 211 00:12:39,137 --> 00:12:43,551 Requires a pair Of three-tube headers. 212 00:12:43,551 --> 00:12:45,965 A worker trims the bent Primary tubes 213 00:12:45,965 --> 00:12:48,517 To the required length With a bandsaw. 214 00:12:52,517 --> 00:12:55,862 The sawed edges of the tube Are ragged, 215 00:12:55,862 --> 00:12:58,448 So the next step Is to grind them smooth. 216 00:13:03,586 --> 00:13:07,551 After grinding, the edge No longer looks like this. 217 00:13:13,517 --> 00:13:15,482 Workers heat the top end Of the tube 218 00:13:15,482 --> 00:13:18,000 With a torch To soften the steel. 219 00:13:23,689 --> 00:13:27,068 They place the end Into an end-forming machine. 220 00:13:27,068 --> 00:13:28,586 The machine shapes the end 221 00:13:28,586 --> 00:13:31,068 To match the top profile Of the cylinder, 222 00:13:31,068 --> 00:13:34,793 To which the tube Will be mounted. 223 00:13:34,793 --> 00:13:38,000 Cylinder profiles vary From engine to engine, 224 00:13:38,000 --> 00:13:41,482 So workers simply change The forming tool on the machine. 225 00:13:45,551 --> 00:13:48,758 A worker clamps the header Flange with its four 226 00:13:48,758 --> 00:13:52,206 Exhaust ports on to An assembly jig and positions 227 00:13:52,206 --> 00:13:56,655 The top end of A primary tube in each port. 228 00:13:56,655 --> 00:13:58,310 He inserts the bottom ends 229 00:13:58,310 --> 00:14:02,103 Into the four-leaf-clover-shaped Collector. 230 00:14:04,517 --> 00:14:07,068 He then welds the top end Of each tube 231 00:14:07,068 --> 00:14:10,551 To its exhaust port On the header flange. 232 00:14:10,551 --> 00:14:13,310 Then he welds a tag With the company name 233 00:14:13,310 --> 00:14:15,034 On to one of the tubes. 234 00:14:17,586 --> 00:14:20,275 Finally, he welds The bottom end of the tubes 235 00:14:20,275 --> 00:14:22,137 To the collector. 236 00:14:26,620 --> 00:14:29,448 The header's three sections -- Flange, tubes, 237 00:14:29,448 --> 00:14:33,551 And collector -- are now fused. 238 00:14:33,551 --> 00:14:36,379 The worker grinds down the weld Around the ports 239 00:14:36,379 --> 00:14:39,413 Until it's nearly flush. 240 00:14:39,413 --> 00:14:42,551 The remaining bit of weld Material encircling the port 241 00:14:42,551 --> 00:14:45,137 Will act As a seal to prevent leakage. 242 00:14:49,517 --> 00:14:52,206 During the welding, Some welding material drips 243 00:14:52,206 --> 00:14:55,137 Into the header flange's Openings, 244 00:14:55,137 --> 00:14:57,896 So a worker reams The bolt holes with a drill 245 00:14:57,896 --> 00:15:00,206 And grinds The edges of each port. 246 00:15:03,241 --> 00:15:05,724 He mounts the header on The corresponding engine's 247 00:15:05,724 --> 00:15:10,310 Cylinder head to make sure bolt Holes are sufficiently cleared. 248 00:15:10,310 --> 00:15:14,896 Then he runs a torch over all The joints to check the welds. 249 00:15:14,896 --> 00:15:17,896 The flame would shoot through Any hole in a weld, 250 00:15:17,896 --> 00:15:20,551 Alerting them to repair it. 251 00:15:23,241 --> 00:15:27,758 This factory applies one of two Finishes on its exhaust headers. 252 00:15:27,758 --> 00:15:31,103 The basic one is a coat Of black water-based paint 253 00:15:31,103 --> 00:15:33,551 Sprayed on and air-dried. 254 00:15:33,551 --> 00:15:35,758 It prevents surface rust From forming 255 00:15:35,758 --> 00:15:38,068 While the part is warehoused. 256 00:15:38,068 --> 00:15:41,827 The higher-end finish is an Aerospace-grade ceramic coating, 257 00:15:41,827 --> 00:15:44,448 Available in black or silver. 258 00:15:44,448 --> 00:15:47,793 This baked-on finish protects The headers from rust 259 00:15:47,793 --> 00:15:50,827 For many years Of high-performance driving. 260 00:16:01,724 --> 00:16:03,586 Narrator: This may look like ivory, 261 00:16:03,586 --> 00:16:05,551 But it's actually limestone. 262 00:16:05,551 --> 00:16:08,241 It looks as though It's a sculpted work of art, 263 00:16:08,241 --> 00:16:10,068 But it's actually molded. 264 00:16:10,068 --> 00:16:12,310 How does one mold limestone? 265 00:16:12,310 --> 00:16:16,310 200 years ago, some people In france figured out how, 266 00:16:16,310 --> 00:16:22,206 And their descendents are still Molding limestone artwork today. 267 00:16:22,206 --> 00:16:25,896 This unique art form exists Because, two centuries ago, 268 00:16:25,896 --> 00:16:30,620 A family in france discovered Springs amid volcanic rock, 269 00:16:30,620 --> 00:16:34,310 Springs with water so rich In calcium carbonate 270 00:16:34,310 --> 00:16:36,379 That it petrified into stone. 271 00:16:36,379 --> 00:16:39,137 That is limestone. 272 00:16:39,137 --> 00:16:42,379 The family carved out caves, Then invented a way 273 00:16:42,379 --> 00:16:46,620 To capture the calcium carbonate And mold sculptures with it. 274 00:16:46,620 --> 00:16:50,896 The descendents of the family Continue that tradition today. 275 00:16:50,896 --> 00:16:54,655 The springwater contains Two grams of calcium carbonate 276 00:16:54,655 --> 00:16:57,413 Per liter and a lot Of iron oxide, 277 00:16:57,413 --> 00:16:59,758 Which makes the water orange. 278 00:16:59,758 --> 00:17:01,931 The original troughs Direct the water 279 00:17:01,931 --> 00:17:04,413 On to a bed of wood shavings. 280 00:17:04,413 --> 00:17:06,793 The shavings trap The iron oxide, 281 00:17:06,793 --> 00:17:11,103 And the calcium carbonate floats To the surface. 282 00:17:11,103 --> 00:17:13,689 In the workshop, The owner of the company -- 283 00:17:13,689 --> 00:17:16,310 The seventh generation Of the founding family -- 284 00:17:16,310 --> 00:17:17,827 Makes the mold. 285 00:17:17,827 --> 00:17:20,034 He heats something called Gutta-percha 286 00:17:20,034 --> 00:17:22,620 In a pot of water To soften it up. 287 00:17:22,620 --> 00:17:25,068 Gutta-percha is a natural latex 288 00:17:25,068 --> 00:17:27,344 Made from the sap Of the gutta tree. 289 00:17:27,344 --> 00:17:30,482 Once it's soft, he weighs out The required amount 290 00:17:30,482 --> 00:17:32,965 Using the workshop's Original scale. 291 00:17:36,172 --> 00:17:39,379 Then he kneads it to force out Trapped air 292 00:17:39,379 --> 00:17:41,172 And make it more malleable. 293 00:17:44,172 --> 00:17:48,275 After forming it into a ball, He places it in an old press 294 00:17:48,275 --> 00:17:50,793 Made my his great-grandfather. 295 00:17:50,793 --> 00:17:52,965 The press shapes The gutta-percha 296 00:17:52,965 --> 00:17:56,344 Into a rectangle measuring 7-by-10 inches. 297 00:18:00,068 --> 00:18:02,586 After cooling in the press For 30 minutes, 298 00:18:02,586 --> 00:18:04,379 The gutta-percha has hardened 299 00:18:04,379 --> 00:18:08,344 Just enough to maintain The rectangular shape. 300 00:18:08,344 --> 00:18:10,137 He removes it from the press 301 00:18:10,137 --> 00:18:14,310 And places a silicone-designed Template on top. 302 00:18:14,310 --> 00:18:17,620 He cuts the gutta-percha To the shape of the template. 303 00:18:23,172 --> 00:18:25,965 He places the gutta-percha On top of a pattern 304 00:18:25,965 --> 00:18:29,379 Created by an artist. 305 00:18:29,379 --> 00:18:32,034 He places the template On the gutta-percha, 306 00:18:32,034 --> 00:18:34,413 Then a plank of wood On top of that. 307 00:18:37,172 --> 00:18:41,068 He puts the entire assembly Under an old screw press. 308 00:18:45,172 --> 00:18:48,586 An hour later, he removes The assembly from the press 309 00:18:48,586 --> 00:18:51,000 And gently separates the layers. 310 00:18:53,137 --> 00:18:56,517 The artwork design is now Transferred from the pattern 311 00:18:56,517 --> 00:18:58,413 To the gutta-percha. 312 00:18:58,413 --> 00:19:02,413 He sets it aside to cool To a hard state. 313 00:19:03,275 --> 00:19:06,275 When the work of art Is either too wide or high 314 00:19:06,275 --> 00:19:08,310 To fit into The traditional screw press, 315 00:19:08,310 --> 00:19:11,379 The artisan then sculpts The pattern out of clay. 316 00:19:11,379 --> 00:19:16,379 Once the clay hardens, he coats It in silicone to make the mold. 317 00:19:16,379 --> 00:19:19,758 This modern mold-making Technique is a bit trickier 318 00:19:19,758 --> 00:19:22,068 Because silicone Can't be reheated 319 00:19:22,068 --> 00:19:24,310 And reworked like gutta-percha. 320 00:19:26,758 --> 00:19:28,862 The silicone takes about 24 hours 321 00:19:28,862 --> 00:19:31,862 To harden into a flexible mold. 322 00:19:31,862 --> 00:19:34,827 A silicone mold can be used Only once. 323 00:19:34,827 --> 00:19:38,586 And because it's so flexible, It has to sit on a support tray 324 00:19:38,586 --> 00:19:43,206 So that it doesn't buckle When filled or moved. 325 00:19:43,206 --> 00:19:45,517 Now it's time to mold The limestone. 326 00:19:45,517 --> 00:19:48,206 A craftsman positions The molds under these 327 00:19:48,206 --> 00:19:50,551 Liquid limestone waterfalls. 328 00:19:50,551 --> 00:19:54,310 The carbonic gas in the liquid Gradually evaporates, 329 00:19:54,310 --> 00:19:59,275 Leaving accumulating deposits of Calcium carbonate in the molds. 330 00:19:59,275 --> 00:20:03,275 An artisan moves every mold To a new position daily 331 00:20:03,275 --> 00:20:06,931 So that the dripping water Hits all parts of it. 332 00:20:06,931 --> 00:20:10,413 Artwork just one 1/5 of an inch Thick requires 333 00:20:10,413 --> 00:20:12,793 Six months under the fountain. 334 00:20:12,793 --> 00:20:16,931 Artwork 4/5 of an inch thick Requires two years. 335 00:20:19,206 --> 00:20:22,689 To extract the limestone artwork From a traditional mold, 336 00:20:22,689 --> 00:20:25,034 The artisan immerses it In hot water 337 00:20:25,034 --> 00:20:29,206 To soften the gutta-percha so That he can gently peel it off. 338 00:20:29,206 --> 00:20:31,310 Every intricate detail Of the design 339 00:20:31,310 --> 00:20:35,827 In the gutta-percha Is now replicated in limestone. 340 00:20:35,827 --> 00:20:40,758 This molded rock is as strong And hard as marble. 341 00:20:40,758 --> 00:20:43,724 To extra the artwork From a silicone mold, 342 00:20:43,724 --> 00:20:48,310 An artisan removes the support Tray and lifts off the silicone. 343 00:20:48,310 --> 00:20:52,206 The company has more than 500 Artwork patterns in stock 344 00:20:52,206 --> 00:20:55,206 Dating back to 1821. 345 00:20:55,206 --> 00:20:58,034 Not all the molded limestone Looks the same. 346 00:20:58,034 --> 00:21:01,689 The artisans can tailor The shade from white to ivory 347 00:21:01,689 --> 00:21:04,000 By controlling How much iron oxide 348 00:21:04,000 --> 00:21:06,379 They remove from the water. 28390