Autocad Bearing Distance Input' title='Autocad Bearing Distance Input' />Surf. Mate Technocad. Surf. Green Day Discography Tpb Mafia'>Green Day Discography Tpb Mafia. Mate is a digital terrain modelling and earthworks design solution giving the designer many enhanced features for use in Digital Terrain Modelling and Earthworks design completely integrated with Auto. PLEASE NOTE Im really not competing to win the laser, a tshirt would be fine, thanks. I saw the competition and thought it would be fun to show off my. View and Download DeLorme XMap 6 user manual online. Updated for XMap 6. XMap 6 GPS pdf manual download. X/f/1/f131d0e99c11c88dc8cd0f166b9ddbcf23c4dfd8.gif' alt='Autocad Bearing Distance Input' title='Autocad Bearing Distance Input' />CAD. TECHNo. CAD have put great effort into packing as many useful options as possible into the software to make it the most valuable add on to Auto. CAD available to the DTM modeller today. Surf. Mate has taken the lead in DTM software running in the Worlds No. CAD package Auto. CAD. With its lightning speed with surfaces of unlimited numbers of points and multiple surfaces in memory, Surf. Mate is used by mappers, surveyors, engineers, geologists and environmentalists world wide. Surf. Mate now takes digital terrain modelling into the 2. Now you can design a building terrace with automatically optimised cut and fill volumes, draw the embankment batter slope lines automatically and label the terrace elevations automatically to produce a 3. D model of the terrace as well as a working drawing in 3 simple operations. These are just some of the features Contact us about Surf. Mate. Seamless Integration. Surf. Mate is seamlessly integrated with Auto. CAD. By utilising the same menu interface in Auto. CAD for all design products reduces the learning curve when it comes to executing designs and linking DTM modelling with civil engineering type design. All software programs can be interlinked using Auto. CAD as the common graphics engine with no transfers to external programs. Documentation and On line help. There is a fully featured extensive on line help which describe all the options from installation to detailed use of the various features. Available now Users of earlier versions of Surf. Mate can access the new version by purchasing an upgrade. If you are currently on a software maintenance agreement, then you can obtain the latest version free of charge. Consider these features available in this amazing product and place your orders today Application examples. Surf. Mate can be used in a variety of applications including Topography. Slope analysis. 3D flowlines. Thickness maps. Bathymetry. Contaminant modelling. Cross sections and profiles. Visibility analysis. Lighting analysis. Building terrace design. Preliminary road route planning use Road. Mate for full road designFaulted geology. Mine planning. Mining engineering. Mining geology. Golf course design. Site visualization. Topography. Surf. Mate generates contours or surface meshes for topography starting from x, y, z files, digital elevation models or extracted drawing entities, such as spot elevations or contour polylines. D breaklines defining elements such as building pad perimeters, roads or geologic faults may optionally be used. Contours may be based on a TIN, grid or triangulated grid. Contouring directly on the TIN Triangulated Irregular Network is common in civil site design. Contouring on the grid allows for smooth curved surfaces between your data points. Contouring on the triangulated grid unique to Surf. Mate allows both smooth curving surfaces and exact honouring of breaklines. Optional contour line indexing, annotation, hachuring, and colour options are available. Slope Analysis. Surf. Mate can display your surface coloured by surface slope in percent or degrees complete with coloured legend showing the slope breakdown. Iso slope contours may be created and draped onto the surface in 3. D. Creating slope analysis maps is quick, easy and flexible. D Flowlines. 3D flowlines represent the 3. D path a drop of water would take if placed on the surface. A flowline runs perpendicular to a contour line. Flowlines are a great way to check drainage designs or delineate watersheds. Creating Thickness Maps. Thickness isopach maps represent the thickness between two surfaces. For example, an isopach between the top and base of a coal seam would be used for mapping the distribution of the coal seam. A thickness map between existing and design topography is the basis for cut and fill volumes. Thickness maps are created by subtracting two elevation surfaces, such as an existing and a design topography, or the top and base of a geologic unit. Surf. Mate includes much more than just subtraction over 3. Contouring Bathymetry. Many private firms and government agencies to map coastal and navigable waterways, reservoirs and rivers use Surf. Mate. Profiles, cross sections, water and sediment volumes are generated quickly and easily. Modelling Contaminants. Modelling contaminant distribution with Surf. Mate uses the Kriging capability of the program. Interactive variogram design allows you to create custom semi variograms to match the transport characteristics of the contaminant stratigraphy combination. Logarithmic contours may be used or irregular contours based on specific contaminant thresholds may be generated. Several maps may be combined to show the relationship between the contaminant and bedrock topography, stratigraphy or ground water surfaces. Creating Sections. Longitudinal sections and cross sections may be created along any arbitrary line or polyline paths. Use the centreline of a road or stream to create a 2. D graph of elevation versus distance. Create a profile of existing topography along your proposed centreline, then draw your design vertical alignment right on the 2. D profile and reapply it to the design centreline to create a 3. D centreline polyline to your exact design. Great for preliminary road design or open channel hydraulics design. Computing Volumes. Rapid, accurate volumetric computation is a strength of Surf. Mate. All volumes are prismoidal volumes of a TIN, grid or triangulated grid representing your surface. The Area Volume command lets you calculate the volumes within any number of closed area polylines. Supply one surface representing thickness or two surfaces representing the top and base of a unit or existing and design topography and volumes are calculated and reported with cut, fill and net volumes for each area, plus the grand total. Surface mining engineers use area volumes to calculate overburden and product volumes under hundreds of removal polygons in one pass. Site designers use area volumes for cutfill calculations for different parts of the design area. Midi Library S'>Midi Library S. The resulting thickness map is always preserved so you may contour the cutfill or isopach map. Visibility Analysis. Sight lines are important in site planning, environmental remediation and transmission tower placement. Choose a viewpoint location and Surf. Mate will display a visibility analysis by colouring the topographic surface by angle of incidence where it is visible and indicating areas, which are not visible from that viewpoint. Lighting Analysis. Surface lighting may be analysed by supplying a light location, and then the displaying the surface coloured based on the angle of incidence of light striking the surface. Designing PlatformsTerraces. Creating building terraces set into the existing terrain is painless. Persona 3 Portable Torrent Download English. If the terrace is slightly sloping, draw your outline with a polyline and then use grade polyline to a plane and simply show Surf. Mate your required direction of fall and input the value of the grade. Your polyline is instantly updated in 3. D Supply the cut slope and fill slope angles and Surf. Mates intersect slope command will project the slopes from your pad perimeter and calculate the head of the cut and the toe of the fill and draw the resulting daylight line in 3.